ядертех английский (Small)

SKOLKOVO INNOVATION
PROJECTS
ADVANCED MANUFACTURING, RADIATION
AND NUCLEAR TECHNOLOGIES CLUSTER

119
3
ABOUT THE FOUNDATION
Mission
Goals
Ecosystem
Benefits and opportunities for participants
Statistics and facts
Skolkovo industrial partners — first achievements
ADVANCED MANUFACTURING, RADIATION
AND NUCLEAR TECHNOLOGIES CLUSTER
About the cluster
Innovative priorities
Achievements
DESCRIPTION OF THE PARTICIPANTS PROJECTS
CLUSTER TEAM
INDEX OF PARTICIPANTS PROJECTS
5
6
7
7
8
10
11
12
14
16
17
19
123
CONTENTS

ABOUT THE
FOUNDATION
Mission
Goals
Ecosystem
Benefits for the participants
Statistics and facts
Skolkovo industrial partners — first achievements
6
7
7
8
10
11

6
Energy
efficiency
Information
technologies
Biomedical
technologies
Space technology and
telecommunications
Advanced
manufacturing, radiation
and nuclear technologies
The mission of the Skolkovo Innovation Centre and the Skolkovo
Foundation, that established it, is to create an ecosystem in Russia
conducive to the development of innovations to support cutting edge
research and development and then to commercialize of its results by
five priority directions of technological development.
The Skolkovo Foundation aims to ensure that
the Innovation Center can provide facilities for
the full cycle of the innovation process, including
education, R&D, experimental research and
design and commercialization of the results.
The Skolkovo Foundation is creating a model
for the development of an innovation-based
economy for all Russia. The Innovation Centre
serves as proving grounds to test the mechanisms
for promotion the practical application of cutting
edge ideas proposed by Russian academic and
applied research institutions.
SKOLKOVO IS THE KEY ELEMENT OF THE SYSTEM OF RUSSIAN DEVELOPMENT INSTITUTES
that seeks to support the innovation projects at every stage of development – from when it’s just an
idea all the way through sales and marketing, creating a system of continuous support that startups
can draw upon as they work on their projects. The Skolkovo Foundation focuses on the pre-seed
and seed stages of business development and some of the aspects of the launch stage. Subsequent
stages such as business growth and development, IPO and financing are supported by RVK, RUS-
NANO and VEB, respectively by RVC, RUSNANO, and VEB, correspondingly.
THE SKOLKOVO INNOVATION CENTRE WAS ESTABLISHED BY FEDERAL LAW NO.244 “ON
SKOLKOVO INNOVATION CENTRE” (SEPTEMBER 28, 2010) AS THE COUNTRY’S RESPONSE
TO THE NEW CHALLENGE OF THE GLOBAL ECONOMY: ACCELERATING TECHNOLOGICAL
PROGRESS AND RISING COMPETITION FOR KNOWLEDGE AND COMPETENCIES BETWEEN
LEADING NATIONS
Education and R&D Experimental design and
research
Commercialization of
results
SKOLKOVO FOUNDATION MISSION
$
$

7
PARTNERS
Industrial partners (major
international and Russian
companies), accredited venture
capital investors
PARTICIPANTS
The kernel of the ecosystem, early-
stage high-tech startup companies
that have been given the status of
the Skolkovo project participants.
EDUCATIONAL
ENVIRONMENT
Skoltech, Open University
Skolkovo (OpUS),
international and Russian
-partner universities.
TECHNOPARK
Laboratory and research
infrastructure
SKOLKOVO INNIVATION
CENTER INFRASTRUCTURE
The ecosystem consisits of the following key elements: startups, R&D centres of the industrial
partners, venture capital investors, the Technopark, Skolkovo Institute of Science and Technology
(Skoltech), and the infrastructure, i.e. the city of Skolkovo.
ESTABLISHING AN INNOVATION ECOSYSTEM INCLUDES CREATING AND DEVELOPING
EDUCATIONAL, RESEARCH AND ENTREPRENEURIAL ENVIRONMENTS, AS WELL AS THE
PHYSICAL INFRASTRUCTURE OF THE SKOLKOVO INNOVATION CENTER.
SKOLKOVO ECOSYSTEM
SKOLKOVO’S GOAL IS TO CRE-
ATE AN INNOVATION ECOSYSTEM
CONDUCIVE TO RESEARCH AND
ENTREPRENEURSHIP
OPEN UNIVERSITY
SKOLKOVO
$

EXPERT PANELS
Assess the project in
detail
a. Is it feasible in
principle?
b. What significant
advantages does
it offer over foreign
competitors?
c. What is it
commercialization
potential?
d. Does the project
team has the
requisite experience
to successfully
implement
the project on
international level?
SKOLKOVO
FOUNDATION
Assesses the
application based on
formal criteria:
а. Have all
the necessary
information and
documents been
provided?
b. Is the applicant a
Russian legal entity?
с. Does the
applicant meet the
technology criteria
of the Skolkovo
Foundation?
APPLICANT
Complete
the online
application
form at
www.sk.ru
8
BENEFITS AND OPPORTUNITIES
SKOLKOVO PROJECT FOR
PARTICIPANTS
TAX & CUSTOMS BENEFITS:
• Social tax* – 14%
• Income tax – 0%
• VAT – 0%
• Property tax – 0%
• Customs tariffs on imported research equipment – 0%
* tax fees payable by the employer
HOW TO BECOME A PARTICIPANT:
GRANT SUPPORT
ACCESS TO INFRASTRUCTURE AND CONSULTING:
• R&D infrastructure and common use centres, consultations for
applicants for Skolkovo participant status, office leases
• International and national events
• Education and mentoring (OpUS, Skoltech)
SUPPORT WITH RASING FINANCE AND ACCELERATION:
• VC and angel investors
• Infrastructure and technologies offered by industrial partners
01 02 03
CANDIDATES PARTICIPANT STATUS
IS GRANTED TO THE
APPLICANT
~1 month

9
HOW FINANCING IS ALLOCATED
BASIC PRINCIPLES OF GRANT FINANCING BY THE SKOLKOVO FOUNDATION
Grant amount
PROJECT NEEDS MORE
WORK (A MINI-GRANT MAY
BE GIVEN)
REFUSAL WITH
EXPLANATION
or
Co-financing terms
GRANT MEMORANDUM REVIEW BY THE
FOUNDATION
GRANT
COMMITTEE
APPLICATION
The Participant prepares the
presentation according to the
recommended format and
submits it via sk.ru
The Participant submits
the Grant memorandum
with appendixes
The Foundation services
check the application
and have it reviewed by
external experts
Preparation for
the meeting Grant
Committee
10 days no more than 90 (+10) days ~ 1.5 months ~ 2 weeks
The Foundation decides
whether the presentation
will be reviewed
The Foundation checks
whether all the necessary
information and documents
have been submitted
completeness
The Participant is
notified the results of
the review
The Grant Committee
makes the decision on
grant allocation
A business plan and R&D
program are developed,
the market is researched
and search for investors
is initiated
Idea
80up to
K
$
K
$
K
$
M
$
M
$
$
up to
100%
Skolkovo
Concept working
prototype
is manufactured,
a technical design
is developed and the
concept is tasted
Seed
stage
500up to
up to 75%
Skolkovo
More
than 25%
Co-Investor
R&D is completed, an
industrial prototype is
developed and pre-clinical
trials and phase I clinical
trials are conducted
Early
stage
2,5up to
up to
50%
Skolkovo
More
than
50%
More than
75%
Co-Investor
up to
25%
Skolkovo
R&D and clinical trials are
completed, pilot batches
are manufactured and
trialed
Advanced
stage
5up to
Intellectual property
protection, prototyping,
testing, participation
in exhibitions and
conferences
Micro
grants
75up to 100%
Skolkovo

10
$ 165M500
1172M
$
$ $
as of May, 2015
STATISTICS AND FACTS
6873 $ 67
13 5001288 $ 670M
Patents
and certificates
Grant financing
$ 172M
Investments
Participants
from 49 regions
of the country
hard commitments
of the accredited
investors on financing
of the Participants:
applications
for the Participant
status
IP applications Participants’
prosids
Personnel
as of December 2015

11
SKOLKOVO INDUSTRIAL PARTNERS —
FIRST ACHIEVEMENTS
Industrial partners place the R&D centres in Skolkovo and act as the Customer and Consumer of
the start-ups’ innovative solutions, thus integrating the research and business environments of
the Skolkovo innovative ecosystem.
KEY ADVANTAGES OF COOPERATION WITH
SKOLKOVO FOR INDUSTRY PARTNERS
• Access to the advanced personnel and cutting edge Russian science — Skolkovo is the attractive
place of employment and becomes the attraction centre of the best experts from Moscow and
other cities.
• Convenience of R&D and engineering based on concentration of human and technological
resources, cooperation with Skolkovo Institute of Science and Technology (SkolTech), leading
Russian institutes and other Industrial partners.
• Access to advanced technologies being created by Skolkovo start-ups.
• Simplification of administrative procedures, absence of bureaucratic obstacles.
• Tax benefits the same as for the Skolkovo start-ups.
Development strategy of Skolkovo Innovation
Centre presumes special attention to be paid to
the development of the ecosystem interaction with
Industrial partners.
First of all Industrial partners support creation
of qualified work places, bring research and
engineering competencies and invest into creation of
the partners’ R&D centres research and engineering
infrastructure. Jobs at R&D centres will account for
at least a quarter of all jobs within the ecosystem.
A number of leading industrial partners, including,
Rosatom, Boeing, Samsung, Panasonic, Accenture
already established R&D departments in the
Innovation Centre. The total area of R&D centres
planned to be set up within the Innovation Centre is
approximately 130,000 m2.
«Ско Лково» — первые у Спехи
компаний индустриальных партнеров
о ценка численности сотрудников в центрах ниокр
на 2015 г, чел.
о ценка суммарного бюджета ниокр до конца 2015 г.
>40
>3 500
>33
инду Стриа Льные партнеры фонда «Ско Лково» Сегодн Я
человек
млрд руб.
и ндустриальныепартнерыразмещаютцентрыниокр в«Сколково»ивыступаютзаказчиком
и потребителем инновационных решений стартапов – тем самым они интегрируют
исследовательскую и бизнес-среду инновационной системы «Сколково».
кЛючевые преимуще Ства Сотрудниче Ства Со « Ско Лково» д ЛЯ отра СЛевых
партнеров
• доступ к лучшим кадрам и передовой российской науке – «Сколково» является
привлекательным местом для работы и центром притяжения лучших специалистов из
других городов и м осквы.
• удобство проведения исследований и экспериментов с учетом концентрации
технологических и людских ресурсов, сотрудничества со Сколковским институтом
науки и технологии (Сколтех), профильными российскими институтами, партнерами
«Сколково».
• доступ к передовым технологиям, создаваемым стартапами, резидентами «Сколково»,
в том числе при государственной поддержке.
• упрощение административных процедур, отсутствие бюрократизма и волокиты.
• н алоговые и таможенные льготы, как для компаний-участников «Сколково».
В рамках «тонкой» настройки стратегии развития инно-
вационного центра особое внимание уделяется разви-
тию экосистемного взаимодействия с индустриальными
партнерами.
Прежде всего это поддержка партнеров в создании
рабочих мест, формировании необходимых исследова-
тельских компетенций и привлечении инвестиций в соз-
дание исследовательской инфраструктуры центров
НИОКР партнеров. Рабочие места в центрах НИОКР
составят не менее четверти всех рабочих мест
экосистемы.
Еще одним приоритетным направлением взаимодей-
ствия с индустриальными партнерами является обес-
печение заполнения офисно-исследовательских
объектов и социально-бытовой инфраструктуры инно-
вационного центра.
Ряд крупных индустриальных партнеров уже размести-
лись на территории инновационного центра – это
«Камаз», Росатом, «Даурия», «Татнефть», «Техносерв».
Общие площади центров НИОКР, запланированных для
размещения на территории Инновационного центра, со-
ставляют около 130 тысяч м 2.
ВАЖНЫМ НАПРАВЛЕНИЕМ ВЗАИМОДЕЙСТВИЯ
ЯВЛЯЕТСЯ ОБЕСПЕЧЕНИЕ ЗАПОЛНЕНИЯ ОФИСНО-
ИССЛЕДОВАТЕЛЬСКИХ ОБЪЕКТОВ И БЫТОВОЙ
ИНФРАСТРУКТУРЫ ИННОВАЦИОННОГО ЦЕНТРА.
60
industrial companies became
the Foundation partners
260 000 m
2
area for R&D
centres
49industrial partners will
establish R&D centres
5000
employees in R&D
centres
2015INDUSTRIAL
PARTNERSHIP
ИНВЕСТО
И МЕНТО
СОЗДАВАЯ ИННОВАЦИИ – 2015
В рамках «тонкой» настройки стратегии развития инно-
вационного центра особое внимание уделяется разви-
тию экосистемного взаимодействия с индустриальными
партнерами.
Прежде всего это поддержка партнеров в создании
рабочих мест, формировании необходимых исследова-
тельских компетенций и привлечении инвестиций в соз-
дание исследовательской инфраструктуры центров
НИОКР партнеров. Рабочие места в центрах НИОКР
составят не менее четверти всех рабочих мест
экосистемы.
Еще одним приоритетным направлением взаимодей-
ствия с индустриальными партнерами является обес-
печение заполнения офисно-исследовательских
объектов и социально-бытовой инфраструктуры инно-
вационного центра.
Ряд крупных индустриальных партнеров уже размести-
лись на территории инновационного центра – это
«Камаз», Росатом, «Даурия», «Татнефть», «Техносерв».
Общие площади центров НИОКР, запланированных для
размещения на территории Инновационного центра, со-
ставляют около 130 тысяч м 2.
ВАЖНЫМ НАПРАВЛЕНИЕМ ВЗАИМОДЕЙСТВИЯ
ЯВЛЯЕТСЯ ОБЕСПЕЧЕНИЕ ЗАПОЛНЕНИЯ ОФИСНО-
ИССЛЕДОВАТЕЛЬСКИХ ОБЪЕКТОВ И БЫТОВОЙ
ИНФРАСТРУКТУРЫ ИННОВАЦИОННОГО ЦЕНТРА.
ПАРТНЕРЫ
«СКОЛКОВО»
60индустриальных компаний
стали партнерами Фонда
260 тысяч м
2
площадь для центров
НИОКР
49
2ИНДУСТРИАЛЬНОЕ
ПАРТНЕРСТВО

About the cluster
Innovative priorities
Achievements
14
16
17
ADVANCED MANUFACTURING,
RADIATION AND NUCLEAR
TECHNOLOGIES CLUSTER

14
ABOUT THE CLUSTER
The new developments by Russian engineers and
researchers in nuclear, beam, laser, and plasma
technologies, as well as new materials and coatings
can play a significant role in international markets
of mechanical engineering, instrumentation control
equipment, electronics, safety equipment, and non-
destructive testing. Despite the fact that in many fields it
takes between 5–7 years to go from an idea to product,
our innovative companies have recently been quite
successful in promoting their products and services to the
international market.
The Cluster’s objective is to support the commercialization
of huge amount of research of the nuclear industry,
promotion of new technology solutions, and determination of “explosive” growth zones
in order to focus the efforts of the R&D community on the challenges most demanded
by the market. The present Report describes 100 of about 200 Cluster Participants,
demonstrating diversified and promising portfolio of innovative projects in the field of
new nuclear and radiation technologies, advanced manufacturing and materials.
IGOR KARAVAEV
Vice-President,
Executive Director
Advanced manufacturing,
Radiation and Nuclear Technologies
Cluster Skolkovo Foundation

15
OBJECTIVES
The Advanced manufacturing, Radiation and Nuclear Technologies Cluster develops applications the
of technologies originally emerged from nuclear science and used primarily in mechanical engineering
and metalworking, in instrumentation and electronics, nuclear medicine, in agriculture, in the design
and engineering of complex technological systems. In nuclear industry the Cluster is focused on
technologies of radioactive waste management.
MAIN DIRECTIONS OF WORK WITH SKOLKOVO PARTICIPANTS:
• Attraction new Participants and helping existing Skolkovo residents to create new technologies and
commercialize them within the innovation Cluster priorities; creating new jobs and intellectual property.
• Supporting participants working on breakthrough technological solutions process that have the most
potential for commercialization, including rising of co-funding for investment projects.
• Creation and maintenance of attractive and self-reproducing innovative ecosystem aimed at improving
the efficiency of interaction between its main elements: participants, industrial partners, sources of
financing and R&D centres.
• Global international industrial companies interested in R&D cooperation with Russia are among the
potential partners of the Cluster. Also, of great interest for the Skolkovo ecosystem are technology-
intensive engineering companies being attracted to increase the efficiency of participants’ acceleration
and to attract new international partners.
MAIN DIRECTIONS OF WORK WITH SKOLKOVO PARTNERS:
• Co-determination and development activities within the Cluster’s innovative priorities, and increasing
of foresight integration by forming partners market requests for participants, and their inclusion in the
value chains and development activities.
• Development of partners’ R&D centres at the Skolkovo, establishing a research infrastructure, new
jobs and attraction of highly-skilled laborers.
• Attracting of new participants engaged in business development based on technological developments
of the partners.
As a part of ecosystem the Cluster actively cooperate with universities and Russian Academy of Science
-the sources of 40% of the Cluster’s projects. Cluster is also cooperating with Skoltech University
on creating the R&D centres, working closely with Skolkovo Technopark to develop the infrastructure
for future Skolkovo residents, holding contests for innovative projects in cooperation with industrial
partners, and successfully implementing joint initiatives with other institutions for development such as
Rusnano, RVC, VEB-Innovations and others.

16
THE CLUSTER OPERATION PRIORITY AREAS HAVE TAKEN SHAPE AS A RESULT
OF CLOSE INTERACTION WITH BUSINESS, SCIENTIFIC COMMUNITY, STATE
BODIES, AND EXPERTS.
TECHNOLOGICAL PRIORITIES QUANTITY OF PARTICIPANTS
AS OF DECEMBER 2015
CLUSTER INNOVATIVE PRIORITIES
ENGINEERING MATERIALS (CERAMICS,
POLYMERS, COMPOSITES)
MATERIALS FOR PHOTONICS, OPTICS,
ELECTRONICS AND ELECTRICAL
ENGINEERING
TECHNOLOGY AND EQUIPMENT
FOR DESIGN, PRODUCTION AND
PROCESSING OF METALS AND ALLOYS
COATINGS, FILTERS, FILMS
PROJECTSNEW MATERIALS
19
15
14
14
PROJECTSEQUIPMENT AND DEVICES
DETECTORS, SENSORS, DOSIMETERS
24
ANALYTICAL AND MEASUREMENT
EQUIPMENT 19
LASER AND PLASMA SOURCES,
IONIZING RADIATION 23
ELECTROMAGNETIC AND ULTRA-HIGH
FREQUENCY DEVICES 16
AUTOMATION, ROBOTICS, NDT AND
DATA ANALYSIS 18
DECOMMISSIONING, NUCLEAR FUEL
MANAGEMENT AND RADWASTE, ENGI-
NEERING OF RADIATION-DANGEROUS
OBJECTS
MINING, RECYCLING AND REFINING
TECHNOLOGIES
PROJECTSNUCLEAR AND RADIATION TECHNOLOGIES
10
8
RADIATION TECHNOLOGIES INCLUDING
NUCLEAR MEDICINE 11

17
In 2014:
• with the active support of the Cluster, the participants demonstrate
high growth rate - the number of startups who shows revenue increased
2-fold. Total revenue grew up to $10mln;
• over 170 IP applications cumulatively filed and 70+ titles of protection
for intellectual property issued, including PCT;
• more than 700 high-tech jobs created;
• funding of Cluster’ projects amounted to about $20mln;
• 40 grants approved totaling about $15mln;
• high level of private co-financing in the Cluster’ projects reached - about
$13mln cumulatively;
• more than 70 investors supported Cluster’ projects;
• the number of Cluster’ industrial partners grew up to 10 companies;
• Cluster’ expert pool constitutes now more than 150 external experts;
• more than half of Cluster’ projects origin from Russian Academy
of Science and leading universities;
• every 10th Cluster project comes from abroad;
Plans for 2016–2017 are as follows:
The main priority of the Cluster remains the growing number of highquality
startups.
In the year 2016-2017 Cluster plans to put emphasis on commercialization
and acceleration of participants both on Russian and foreign markets.
Cooperation with foreign technology parks and business incubators will
be continued.
The main objective of the Cluster is creation and maintenance of
an attractive and self-perpetuating innovation ecosystem aimed at
increasing the efficiency of mutually beneficial cooperation of its basic
elements: participants, industrial partners, sources of funding and
scientific research centers.
CLUSTER PERFORMANCE

19
DESCRIPTION
OF THE PARTICIPANT
PROJECTS COMPANIES

20
ELECTRON-BEAM WELDING/CUTTING
FACILITY BASED ON GUNS WITH PLASMA
CATHODE AND ELECTRON BEAM RELEASE
TO THE AIR
PRODUCT /
Electron-beam equipment based
on plasma cathode for non-vacuum
electron-beam welding, cutting and
replating of metals.
Applications:
• aircraft building: weld joining structural
parts of aircrafts, weld joining node parts
of turbines;
• automotive industry / ship building: weld
joining of critical nodes (transmission),
welding high-strength steels for crane
building, welding/cutting of ship-building
steels;
• atomic industry; weld joint of critical
structures at APP.
COMPETITIVE ADVANTAGES /
• Using thermocathode gun to provide
longer resource and higher efficiency
of the equipment.
• High precision of operations: minimum
beam diameter (0.005–1.5 mm); electronic
beam alignment system; high speed of
welding/cutting operations (up to 20 m/min).
• Extension of the treated materials
range: welding/cutting of curly metals
(tungsten, tantalum, aluminium); welding/
cutting chemically active metals (niobium,
zirconium, molybdenum); welding
ceramics.
• Performing welding/cutting operations
without vacuum, the equipment can be
installed on a conveyor line.
ESSENCE OF INNOVATION /
Principally novel structure of the de vice
for forming high-voltage electron beam
based on plasma cathode with the system
of gas-dynamic window, allowing release
of the high-voltage beam into the air.
MARKET POTENTIAL /
• Welding equipment market:
View of weld sample made of the material
15 mm thick after the stretch testing -
$19.3bn.
Target segment - high-precision metal
welding/cutting: $2.1bn (11% of the
market).
CURRENT STATUS /
• A pilot unit of non-vacuum facility
was developed (in collaboration with
the Institute of Material Sciences at the
Leibnitz University of Hannover, Germany).
• Testing was performed.
• A production site was created.
TEAM /
NIKOLAY REMPE
PhD in Engineering, research project
manager. Management of scientific
research and developments in the frames
of the Project, interaction with customers
and co-contractors.
SERGEY KORNILOV
PhD in Engineering, Executive Project
Manager. Providing the work execution
in accordance with Plan, planning and
providing execution of the R&D activities
on the plasma cathode gun.
STANISLAV SHIDLOVSKY
Doctor of Engineering, Head of the
modelling scientific team. Modelling of
gas-dynamic processes in the systems
of electron beams transport into the
atmosphere.
ADVANCED BEAM TECHNOLOGY
CONTACTS /
Tomsk +7 (3822) 488 575
development@sygma-tomsk.ru
www.sygma-tomsk.ru
Робот «Бабочка»
View of weld sample made of the material 15 mm
thick after the stretch testing

21
PRODUCT /
Equipment for 3D-printing of functional
articles from composite materials
reinforced with continuous fibres.
Applications:
mechanical engineering, instrument
engineering, aerospace industry, robotic
engineering, medicine, wearable articles.
• The material’s strength is higher
than that of all existing materials for
3D-printing.
• No special-purpose rigging is required,
the process is fully automated.
• Resulting parts have all advantages
of composites with thermoplastic matrix:
requires no hardening, high ornamentality
and resilience.
• The technology enables manufacturing
of articles featuring complex
reinforcement patterns which cannot
be made using traditional methods.
• Different types of plastic materials
and reinforcement fibres can be used.
• The equipment cost is by times lower
in comparison with laser sintering.
The essence of innovation consists
in preparation of a reinforcement fibre
to achieve a good treatment and ensure
a good adhesion with plastic material, and
also in the special design of extruder that
allows for the proper blending of fibre with
resin and accurate material let-up.
MARKET POTENTIAL /
• Global 3D-printing market is estimated
to be $4bn with the prospective growth up
to $12bn by 2017.
• Target segment: 5% of the market
in monetary terms, 3% of the market
in volume terms.
• Key segments: industrial equipment for
functional articles with complicated shape
3D-printed from composite materials,
personal 3D-printers for printing of
functional articles.
TECHNOLOGY FOR ADDITIVE MANUFACTURING
OF ARTICLES FROM COMPOSITE MATERIALS
REINFORCED WITH CONTINUOUS FIBRES
ANISOPRINT
CONTACTS /
Moscow +7 (499) 399 35 19
info@anisoprint.ru
www.anisoprint.ru
CURRENT STATUS /
• A functional prototype is created.
• Physical and mechanical tests
of materials have been conducted.
• Patent applications are being prepared.
• Negotiations with
potential customers are being held.
TEAM /
FEDOR ANTONOV
CEO.
ANDREY AZAROV
CTO, Chief Design Engineer.
ALEXEY KHAZIYEV
Chief Research Assistant.
Shaped articles of composite material manufactured
by 3D-printing technique.

22
CREATION OF PULSE NEUTRON GENERATOR
ON GAS TUBE TO SURVEY OIL WELLS WITHIN
GEOPHYSICAL PROCESSING SYSTEMS
PRODUCT /
APEB-28 pulse neutron tube and neutron
generator with diameter of 34 mm.
They are intended for operation within
geophysical processing systems for oil
wells survey.
Applications:
oil and gas industry.
• No need to use radioactive sources
in geophysical survey during construction
of oil and gas wells.
• Elimination of radiation hazard during
performance of works.
• Increase of the system’s information
content.
• Operability at temperatures up
to 150°C, neutron stream 108 n/sec,
neutron generation frequency 400 Hz-20
kHz, neutron pulse ratio 3–5.
Fitting of oil well logging equipment with
pulse neutron source, the design of which
uses no radioactive substances, thus
ensuring basic porosity and permeability
properties of container rocks and
eliminating radiation hazard during survey
works.
MARKET POTENTIAL /
Globally, only market leaders —
Schlumberger, Baker Hughes, Halliburton,
Weatherford — possess well equipment
of this class.
CURRENT STATUS /
• The technique and pilot samples of
АРЕВ-28 pulse neutron tube that is able
to generate neutrons by D+T reaction and
ensure yield of neutrons of approximately
108 n/sec with operational life of up to
600 hours were developed.
• Intense marketing among customers
is being conducted.
TEAM /
VLADIMIR CHERMENSKY
Doctor of Engineering, Co-founder and
CEO.
SERGEY BUTOLIN
Co-founder and Director for Development,
Director for Economics and Finance of
the largest Russian geophysical service
company in 1990s-2000s.
VASILY SAMCHENKO
CTO, held leading positions in
performance of many international
projects in oil and gas industry (India,
China, Brazil, Peru, Kazakhstan,
Malaysia).
YULIY DAVYDOV
the Project Scientific Advisor;
development of instruments, techniques,
and methods of nuclear geophysical
testing of mineral deposits have
passed full-scale tests and have been
implemented into production.
ANTARIUS
CONTACTS /
Moscow
АРЕВ-28 neutron tube
+7 (963) 635 85 78
info@power-np.ru
www.power-np.ru

23
TECHNOLOGY AND EQUIPMENT TO ENSURE
SAFETY IN PLACES OF MASS GATHERING
PRODUCT /
HSR_GO is a unit for real-time remote
automatic detection of hazardous objects
hidden on a human body and in portable
luggage without disturbing a human flow.
Applications:
places of mass gathering, transport and
industrial infrastructure.
• Examination distance is up to 10 m.
• Simultaneous examination of up to 5
persons.
• Allowable motion speed is up to 6 km/h.
• Examination of up to 4000 persons per
hour.
• Real-time mode.
• Automatic decision making.
• Low operating cost.
• The technology of active microwave
sounding restores a 3D microwave image
of a human body and objects hidden
on the body in a real-time mode with
simultaneous automatic hazard degree
determination based upon similarity of
the detected objects’ dielectric properties
with those of explosive substances.
• Additional technology of cross-
polarization scattering provides automatic
detection of metal weapons.
MARKET POTENTIAL /
Global market of human body
examination equipment will grow from
$3bn (2011) to $7bn (2020). The segment
of equipment for simultaneous detection
of different hazards is the fastest
growing one (CAGR is 34% per year).
According to the company assessment,
its technologies can occupy up to 15% of
the global market, or $1bn to 2020.
CURRENT STATUS /
• Several prototypes were created.
• Semi-scale tests were conducted
including those at operated station of
Paris subway, also with the use of real
objects.
• Recognition of the independent
international expert board was obtained.
• Intellectual property protection was
carried out. The company is the finalist
of Global Security Challenge (Singapore/
London, 2009), “The most promising
starting company/technology
in security field“.
TEAM /
IGOR GORSHKOV
CEO, PhD in Physical and Mathematical
Sciences, Manager of the largest
international project STANDEX (STANdoff
Detection of EXplosives) being conducted
by NATO Scientific Committee within
Russia–NATO Council. The company’s
scientific and engineering personnel: 20
persons (including 3 PhDs in Physical and
Mathematical Sciences, 4 post-graduate
students).
APSTEK LABS
CONTACTS /
St. Petersburg +7 (911) 225 79 37
info@apstec.ru
www.apstecsystems.com
Screen of security announcing device in case of
detection of hazard on the body of the person being
examined

24
DEVELOPMENT AND IMPLEMENTATION
OF NEW REMOTE TOOLS FOR ECOLOGY
MONITORING IN NATURAL ENVIRONMENTS
PRODUCT /
Fluorescent lidars and sensors for
detection and assessment of crude oil
and petroleum products content on the
water surface and dry land.
Applications:
environmental monitoring of oil production
facilities, fresh and sea water areas, water
reservoirs, port infrastructure facilities,
on- and offshore pipelines; monitoring of
film thickness at contamination volume
assessment and during decontamination.
• Reliable detection of presence of oil film
on the surface of water, assessment of
the film thickness.
• Wide range of functional capabilities
with lower market value.
• Possibility to use petroleum products’
lidar measuring elements (PP LME) from
board of fast small vessels and
low-altitude aircraft.
• Use of PP LME on board of unmanned
aerial vehicles.
Developed procedures, hardware
know-hows and accumulated direct
experience of usage of fluorescent
lidar systems enable to create PP LME
instruments for commercial use in many
fields of economy; no analogues exist.
MARKET POTENTIAL /
• The volume of petroleum product
sensors market is $0.5-1bn. Target
segment: up to 50% of the market.
• Key segments: supplies of portable
PP LMEs for fixed above-water and
immersed structures, mobile PP LMEs
to be used from board of marine and air
crafts, of ultra-portable sensors to be
used on unmanned aerial vehicles.
CURRENT STATUS /
• Several R&D works were performed,
procedures developed and tested,
operational prototypes created.
• Multiple field tests were performed
which proved the usability of the
technique and hardware solutions.
• Works are being performed on patenting
in the RF and abroad.
• Prototypes of new portable PP LMEs
are being developed.
TEAM /
PYOTR ZAVIYALOV
Doctor of Geographical Sciences,
Research Project Manager,
Deputy Director of P.P. Shirshov Institute
of Oceanology of RAS.
VADIM PELEVIN
CEO, 15-year experience in the field
of remote fluorescent sounding, chief
designer of UFL lidars.
Project Chief Technical Officer.
YURY LAPENKO
Manager on economics and finance.
IGOR VESELOVSKY
PhD in Physical and Mathematical
Sciences, globally recognized scientist in
the field of lidar studies, possesses wide
international experience.
AQAMARIN
CONTACTS /
Moscow +7 (926) 737 13 04
Fax: +7 (499) 124 73 92
vvpelevin@gmail.com
www.lidars.ru
The most portable in the world fluorescent lidar UFL-
7, the Atlantic Ocean, 2003. Over 30 expeditions
were conducted with UFL lidars in saline and fresh
water areas.

25
SET OF FIBER-OPTIC PROBES FOR SCANNING
NEAR-FIELD OPTICAL MICROSCOPY
PRODUCT /
Fiber-optic probes with an axicon-shaped
tip could be in the following various
modifications:
• plated probe with aperture,
• unplated nonaperturate probe,
• probe with nanoantenna.
Applications:
Scanning near-field optical microscopy.
Getting an optical sample image in a
subwave scale, local laser modification,
mapping plasmons, mapping refractive
indexes of transparent samples.
• Increased spatial resolution due
to nanoantenna resonance focusing
properties.
• New shape of the probe working area
increases the optical effectiveness and
enhances the probe mechanical and
optical strength. It is possible to affect
for a certain specified sample depth with
probes of laser modification.
• A combined manufacturing technology
diminishes quantity of working surface
roughness and increases qualitative probe
characteristics.
MARKET POTENTIAL /
• The market of probes for scanning
near-field optical microscopy is $4.25mln.
• Target segment:
15-20 % of the market in monetary terms.
STAGE IN PROGRESS /
• Laboratory R&D has been performed;
the results have been published in
international journals.
• Russian Federation patent has been
obtained.
• Active marketing among the customers
is in progress.
TEAM /
DMITRY STOROZHENKO
PhD in Engineering Science, Co-founder
and CEO.
ALEXANDR KUCHMIZHAK
Sciences, scientific director of the project,
experience in studies in the area of
probe (atomic-force, near-field optical)
microscopy, nanophotonics, plasmonics
and laser treatment of materials.
AXICON
CONTACTS /
Vladivostok +7(924) 240 22 58
axicon.su@yandex.ru
Focusing properties of the unplated nonaperturate
probe
The surface of the probe workpiece tip in the form of
an axicon lens.

26
PRODUCT /
Selective ion-exchange resins for
extraction of rare earth metals (REMs),
radionuclides (plutonium, thorium,
americium, europium, caesium), indium,
platinum-group metals (PGMs).
Applications:
extraction of metals from liquid radioactive
waste and underground leaching
solutions, electrolyte purification.
• Extraction of one, two, or a group
of metals.
• Effective extraction from strongly
acidic solutions with a complex saline
background.
• High sorption capacity
(up to 5–8 mg-eq/g), 3–4 times higher as
compared to foreign analogues.
• Distribution coefficient is 103-104.
• Reusable.
• Reduced number of extraction stages.
At the synthesis stage, the technology
enables adapting the properties of
obtained ion-exchange material to specific
tasks of selective extraction of the target
metal from a multi-component solution.
MARKET POTENTIAL /
• Global resin market is $1bn.
• Target segment: 25–30% of the market
in monetary terms, 5–10% of the market
in physical terms.
• Key segments: waste treatment with
extraction of commercial radionuclides
(Am-241), refining, production and
processing of rare and precious metals.
OF A DESIGN TECHNOLOGY
FOR PRODUCTION OF SELECTIVE
ION-EXCHANGE RESINS AXIONIT
AXION: RARE AND PRECIOUS METALS
CONTACTS /
Perm +7 (342) 211 00 90
Fax: +7 (342) 253 07 69
axion.rnm@gmail.com
www.axion-rnm.com
Granules of AXIONIT ion-exchange resin for extrac-
tion of REMs and Am-241 from strongly acidic
media
CURRENT STATUS /
• Laboratory research studies were
conducted.
• Positive findings by the Federal State
Unitary Enterprise Production Association
Mayak were obtained, and the technology
efficiency was confirmed.
• 5 RF patents were obtained, 2 PCT
applications filed.
• Intense marketing among the
customers.
TEAM /
DMITRY KONDRUTSKY
PhD in Chemical Sciences, Co-founder
and CEO.
VIKTOR KABLOV
Doctor of Engineering, professor, research
project manager, 40-year experience
in polymer chemistry, honoured inventor.
ALEXANDER BOBROV
PhD in Chemical Sciences, Executive
Officer responsible for customer
relations, experienced in scaling and
implementation of chemical engineering
projects in Russia and abroad.
GADZHI GADZHIYEV
PhD in Engineering Sciences, Chief
Chemist.

27
AUTOMATIC MICROWAVE BABY BOTTLE
WARMER-STERILIZER WITH DIRECT
NON-CONTACT TEMPERATURE MONITORING
PRODUCT /
Fully automated baby food heater with
temperature monitoring. Irrespective of
the type, initial temperature and quantity
of the baby food, the heater guarantees
the preset target temperature of the food.
• Accuracy. Heating exactly up to the
target temperature regardless of initial
conditions.
• Quickness. Baby wants to get the bottle
promptly. The warmer heats
2 times faster than fastest water-steam
competitors thanks to volumetric heating.
• Usability. There is no need to fill the
device with water, adjust or service it.
User cannot make any mistake.
• Safety. There is no hot water of steam.
There are no any hot parts. Scalds of user
or baby are impossible.
• Careful heating. Not merely surface but
whole volume is heated under permanent
forced mixing. SmartField™ technology
controls the microwave intensity and
keep it at low safe level. The local
temperature does not exceed 60°C;
all important nutrients survive.
• Possibility to heat up frozen milk.
• No maintenance required.
• Attractive design.
The technology of non-contact
temperature monitoring with forced
mixing and volumetric heating is applied.
Inverter control of magnetron with
SmartField™ careful heating technology
is applied, providing monitoring and
control of the field strength in the heating
chamber.
MARKET POTENTIAL /
Russia – 500,000 devices — $40mln;
global market: over 7 mln. devices -over
$800mln.
CURRENT STATUS /
• Attractive design has been developed.
• The prototype device has been
produced.
• Prototypes with sterilization and cooling
functions
are under development.
• The Russian patent has been obtained,
PCT application has been filed..
• The prototypes are demonstrated at
exhibitions.
TEAM /
ALEXEY LEVCHENKO
Sciences, founder and General Director,
Project Manager.
OLGA LUKOYANOVA
PhD in Medical Sciences, pediatrician
of the highest category, certificates
in pediatrics and dietetics; Research
Manager (medical, chemical, biological
research).
IGOR STUCHEBRYUKHOV
Development Manager.
DMITRY SEVOSTIYANOV
Senior Research Assistant (electronics,
programming).
MIKHAIL LEVCHENKO
Chief Developer (CAD).
BABYFIELD
CONTACTS /
Moscow +7 (916) 619 61 86
babyfeld@yandex.ru
3D model of the heater’s prototype

28
PRODUCT /
“Femtosecond surgical laser: optic
forceps” laser package (LP) and
biomedical technologies based on it.
Applications:
reproductive and regenerative medicine,
applied and fundamental research in the
field of cellular biology and medicine.
• Contact free and sterility
of manipulations performed at cellular and
subcellular level.
• High precision and selectivity
of manipulations performed, minimized
risk of a thermal damage of the object
being studied due to the use
of a femtosecond-duration source.
• Versatility and adaptability of the
package for the requirements of specific
task and technology being implemented.
Integration of two laser tools,
femtosecond surgical laser and optic
forceps, in one system intended
for contact-free high-precision
micromanipulations and microsurgery,
including those performed on live
biological objects.
MARKET POTENTIAL /
Key consumers are: research and
academic institutions, laboratories and
clinics of reproductive and regenerative
medicine.
CURRENT STATUS /
• The LP laboratory sample for cellular
biology and medicine has been
developed, constructed and tested.
• 1 RF patent has been obtained,
1 certificate for registration of Laser
Package Software.
customers. Participation in the program
by the Ministry of Education and Science
as the industrial partner for development
of LP-based advanced technologies. In
2014–2015, an associate contractor by
the RAS Presidium program “Fundamental
Research for Medical Technology
Development”.
DEVELOPMENT OF LASER EQUIPMENT
FOR CELLULAR BIOLOGY AND MEDICINE
BIOMEDICAL LASER TECHNOLOGIES
CONTACTS /
Moscow +7 (495) 229 42 40
Fax: +7 (495) 362 51 36
bimel.tech@gmail.com
“Femtosecond surgical laser: optic forceps” laser
package
TEAM /
MIKHAIL AGRANAT
Doctor of Physical and Mathematical
Sciences, co-founder and Research
Project Manager.
SERGEY ASHITKOV
Sciences, Co-founder and leading
research assistant.
DMITRY SITNIKOV
Sciences, Chief Design Engineer, expert
in the field of laser technologies and
equipment.
ANDREY OVCHINNIKOV
Sciences, Chief Engineer, expert in the
field of laser technologies and equipment.
INNA ILYINA
Sciences, CEO, expert in the field of
biomedical technologies.
ANDREY YURKEVICH
PhD in Medical Sciences, business
planning, marketing, financial advising.

29
PRODUCT /
Small broadband and ultra-broadband
antennas for frequency range from 800
MHz to 3.5 GHz, frequencies based upon
anisotropic ferroelectric materials.
Applications:
mobile communication devices
(smartphones, tablets), multi-function
antennas for vehicles, service
communication devices.
• One Bisant antenna functionally
substitutes several “conventional”
narrowband antennas.
• Decrease of antenna unit size down to
50% with enhancement of engineering
parameters.
• Increase of stability and communication
radius up to 10–15%.
• Decrease of energy consumption to
10%.

The technology is based on the use of
custom made anisotropic ferroelectric
materials (meta-material subclass) as
active components of antenna units.
Devices using this technology allow
receipt and transmission of radio waves
and radio pulses at various operating
frequencies with various output in
operating frequencies’ narrow, broad and
ultrabroad bands.
MARKET POTENTIAL /
According to the company’s assessment,
the global market of antennas for
smartphones and tablets amounts
from $7bn to $10bn. According to the
company’s assessment, the global market
of antennas for vehicles amounts to $7bn.
Share of Bisant R&D antennas can reach
5%-7% of the market.
BROADBAND ANTENNA MODULES
FOR MICROWAVE COMMUNICATION SYSTEMS
BASED ON ANISOTROPIC COMPOSITES
BISANT, SCIENCE LAB
CONTACTS /
Moscow Region
Mytishchi
+7 (495) 539 23 03
bisant@bk.ru
www.bisant.ru
CURRENT STATUS /
• Research works, laboratory
examination, and test measurements
confirming the stated parameters have
been conducted.
• Records of interest have been signed
with leading Russian and foreign
organizations and companies.
• Pilot production of multi-function
broadband automotive antennas has been
established.
TEAM /
GENNADY KARPUNIN
CEO. The technology developer and
project author. Author of over 20 scientific
publications and 5 patents.
ALEXANDER KORNEYEV
Deputy CEO.
Experience in market launch of
communication devices. Author of over
20 scientific publications and 5 patents.
KONSTANTIN TATARINTSEV
Deputy CEO, PhD in Physical and
Mathematical Sciences, international
qualification in the field of finance, CMA.
Samples of ferroelectric ceramics

30
PRODUCT /
Case of silicone carbide for nuclear waste
and spent nuclear fuel burying.
Applications:
for long-term underground burying
of NW and SNF as part of the dedicated
packages in rocks.
COMPETITVE ADVANTAGES /
No corrosion of base material with
preservation of the rest of characteristics.
• For the first time in the world practice,
on the basis of comprehensive research,
the offer appeared to create cases
of silicone carbide (SiC) for nuclear waste
burying.
• The key component of innovations are
several technologies unrivalled in the
world such as:
- welding of silicone carbide ensuring
weld structure which is identical to that
of base material, case sealing and vacuum
tightness;
- the technology of manufacturing
of uniform-density large items of silicone
carbide.
MARKET POTENTIAL /
• Market of cases is $0.8bn per year.
• Target segment: 15–20% of the market.
• Key segments: HLW in the internal
and external market; SNF in the internal
market.
CURRENT STATUS /
• Owing to private investments,
development of the laboratory technology
of SiC ampoules production succeeded.
• Critical process areas have been
developed, possibility of manufacturing
of thin-wall SiC ampoules
(diameter 220 mm, wall thickness 6 mm,
length 1,500 mm) obtained.
• Active marketing among the customers
(ROSATOM, ROSRAO, AREVA etc.).
CREATION OF PILOT TECHNOLOGY OF
PRODUCTION OF CASES OF SILICONE CARBIDE
FOR BURYING OF NUCLEAR WASTE (NW)
AND SPENT NUCLEAR FUEL (SNF)
CERAMICS TECHNOLOGIES
CONTACTS /
Moscow (Troitsk) +7 (495) 851 00 97
Fax: +7 (495) 851 01 155
info@sic-ceramics.com
www.sic-ceramics.com
TEAM /
GENNADY BABAYANTS
PhD in Engineering Sciences,
Co-founder and CEO.
SERGEY PILOSYAN
Deputy CEO for Science. Scientific
advising in the project, justification
of experiments; calculations
and simulation of properties.
ALAN KHUMAROV
Director for Finance. Commercialization
of the development, construction of
relations with customers, business model
formation.
Weld structure identical to that of base material
SiC cylinder

31
APPLIED RESEARCH WORKS IN THE FIELD
OF FUNCTIONAL THIN-FILM COATINGS
PRODUCT /
Solid-state electrochromic devices.
Applications:
architecture glass, vehicle glass, plane
and helicopter windows, protective
goggles and masks, scientific
electrooptical devices.
• Improved specifications:
- switching time;
- transparency;
- colour of the device in tined mode.
• Low prime cost of the product.
• Possibility to manufacture product
without substantial retrofitting of process
lines being used by manufacturers
of coated glass.
Electrochromic device is completely
solid-state and is produced through
magnetron sputtering using new
materials.
MARKET POTENTIAL /
• The volume of electrochromic devices
market will amount to $300mln by 2020.
• Cost of electrochromic glass available
in the market is approx. $700 per m2
.
• Planned prime cost of the product does
not exceed $300 per m2
with dimensions
of up to 2х3 m2
.
TEAM /
LYUBOV EBRALIDZE
PhD in Juridical Sciences, CEO.
DMITRY KRYLSKY
Doctor in Chemical Sciences, Scientific
Advisor, Research Project Manager.
Experience of electrochromic device
development in Research Institute
of Applied Acoustics, Dubna.
VLADIMIR MESHCHERYAKOV
PhD in Chemical Sciences, Project
Manager/Process Engineer. Experience
of research of organo-element
compounds in the Institute
of Organo-Element Compounds of RAS
of the RF and also in universities of USA
and SAR. ARNO ROSSOW Process
Engineer. Participant of the joint project on
development of thin membranes and films
in the Laboratory of nuclear reactions
named after G.N. Flyorov of Joint Institute
of Nuclear Research, Dubna.
COMBERRY
CONTACTS /
Ulyanovsk +7 (8422) 27 24 27
info@comberry.ru
www.comberry.ru
The product will increase building energy efficiency
and improve its aesthetic appeal by allowing for the
implementation of different colour solutions. colour
solutions.
Combinatorial research platform Comberry (manufac-
tured by Intermolecular, Inc., USA).

32
DEVELOPMENT OF INNOVATIVE
AND COST-EFFICIENT TECHNOLOGIES
OF PAN-POLYMER SYNTHESIS
AND PAN-FIBRE FORMING
PRODUCT /
The technology of producing
of high-quality PAN-precursor
for processing thereof into high-strength
carbon fibre with low prime cost.
Applications:
production of light-weight and
high-strength parts and structures
of carbon fibres (CF) and fabrics
(prepregs) on their basis for various
industries.
• High strength of PAN-precursor-based
CF in microplastic at 5–7 GPa tension.
• High elasticity module of PAN-
precursor-based CF in microplastic
(260–320 GPa).
• Low production cost of PAN-precursor
and CF based on it (and, consequently,
high marginality), less than $20/kg,
that is 3–4 times lower as compared
to the best foreign analogues.
The technology allows producing
at the synthesis stage of polymer product
of higher quality and monitoring of the
polymer molecular weight;
at forming stage, to reduce non-uniformity
and defects at nanolevel, and form
macromolecules (polyacrylonitrile) with
target supramolecular structure.
MARKET POTENTIAL /
• Carbon fibre market is $3.5bn.
in physical term.
CURRENT STATUS /
• Applicability of the procedure under
consideration has been confirmed for
synthesis of high-molecular composition-
uniform of acrylonitrile terpolymer.
• Polymerization regularities according to
the procedure being proposed have been
studied. First results of research work.
customers.
TEAM /
DAVID SERVICE
PhD chemistry, Project Mentor,
experience of development,
implementation and scaling of chemical
projects and technologies in the field of
composite fibres in Great Britain, China,
and Russia.
ANDREY GASYAK
CEO, experience in innovative
entrepreneurship and commercialization
of technologies.
VASILY MEDVEDEV
Head of Laboratory of forming, Chief
Expert, PhD in Engineering Sciences,
over 20-year experience of development
of PAN-precursor and carbon fibre
production technologies, author of over
30 scientific articles and certificates of
authorship.
YELENA CHERNIKOVA
Doctor of Chemical Sciences, Associate
Professor, Chief Chemist, expert in
the field of chemical projects and
technologies, author of over 50 articles,
books, reports and theses.
COMPOSITE, R&D CENTRE
CONTACTS /
Moscow +7 (495) 787 88 28
Fax: +7 (495) 783 73 31
a.gasyak@smartcarbon.ru
www.hccomposite.com
/company/structure
The HC Composite technology – CF possessing
lesser share of defects and higher uniformity

33
PRODUCT /
Library of algorithms of robot motion
control with due account for peculiarities
of the tasks being performed during
interaction with manipulated object,
environment, other robots.
• Possibility to use existing robots
(>1 mln. pcs.) in applications of material
processing with the required accuracy
within 0.05–0.1 mm allowing for turning
and grinding of large parts of arbitrary
geometry.
• Possibility to implement automatic
assembling which in addition to precision
positioning, requires high-precision control
of interaction forces arising at pressing,
embedding, and engagement.
The company has developed original
methods of searching, presentation, and
control of motions and interaction forces:
• keeping of solid, soft, brittle objects,etc.;
• manipulating of large objects using
several manipulators, assembly of articles
from parts with different stiffness.
MARKET POTENTIAL /
The project responses the main challenge
of the robotics market related to increase
of robot operation accuracy and fitting of
its characteristics to accuracy and to the
closest simulation of human operation.
The total market of the project product
use deals with over 1 mln. robots installed
all over the world.
TECHNOLOGY OF ROBOTICS SYSTEMS’
MOTION CONTROL
COMPUTATIONAL ROBOTICS
CONTACTS /
St. Petersburg
CURRENT STATUS /
• The prototype of robotics package
has been developed and created for
the product adjustment and testing and
possible illustration of complexity.
• The prototype of software package has
been developed for control of industrial
manipulators with assurance of high
accuracy.
TEAM /
ANTON SHIRIYAYEV
Sciences, professor, automation of
industrial processes, control of complex
mechatronic systems.
SERGEY GUSEV
Sciences, Associate Professor, control
of non-linear mechanical systems,
optimization, numerical maths and
software development.
LEONID FREIDOVICH
Sciences, Associate Professor, simulation,
planning, control and analysis of motions
of non-linear mechanical systems.
1)Модель устройства DO-RA.Uni
+7 (921) 403 97 12
r.usatov-shiriaev@robotics-spb.ru
www.robotics-spb.ru

34
PRODUCT /
CdZnTe detectors of nuclear radiations.
Range of 10–2000 keV. Current, counting
and spectral modes.
Applications:
medical imaging, tomography, X-raying,
speed scanning; non-destructive testing
and technical diagnostics; monitoring of
radioactive materials; X-ray fluorescent
analysis of substance composition.
• Multiple-fold reduction of irradiation
dose.
• Image of higher quality.
• Light-weight and compact-size devices.
Proprietary AHP (axial heat processing)
method of monocrystal growing provides:
• High quality and uniformity of the crystal
throughout the volume regardless of
diameter.
• High growth speed.
• Possibility to grow unlimitedly large
diameters.
MARKET POTENTIAL /
• The market of detectors and detecting
modules by 2020:
world market up to $7bn, the RF market
up to $50mln.
• Main foreign players are as follows:
Redlen (Canada), Acrorad (Japan),
eV_Product (USA).
The company’s technology can potentially
occupy up to 2% of the world market.
CURRENT STATUS /
• The laboratory technologies of
CdZnTe, CdTe, ZnTe crystals growth
and manufacturing of pilot samples of
detectors have been developed.
• NIITFA, IFTP (ROSATOM), Medical
Company UNIX have revealed interest to
the products.
AHP TECHNOLOGY OF CDZNTE
MONOCRYSTALS FOR RADIATION
DETECTORS
CRYSTALSNORD
CONTACTS /
Aleksandrov,
Vladimir region
+7 (49244) 980 86
Fax: +7 (903) 294 50 01
info@CrystalsNord.ru
www.CrystalsNord.ru
TEAM /
ALEXEY YAKOVLEV
CEO.
VLADIMIR GOLYSHEV
PhD in Engineering Sciences, Project
Manager, Chief Technical Officer, author
of the new method of crystal growing.
Over 100 publications, 6 patents.
SVETLANA BYKOVA
Chief Process Engineer, 20-year
experience in the field of crystal growing,
over 30 publications, 4 patents.
VLADIMIR TSVETOVSKIY
Senior Engineer, over 25-year experience,
over 40 publications, 4 patents.

35
COMMERCIALIZATION OF CVD-TECHNOLOGY
FOR MANUFACTURING DIAMOND WAFERS
PRODUCT /
Poly- and monocrystallic diamond wafers
obtained using the CVD method and
next-level products based on them.
Applications:
• power electronics (heat removal
elements based on SCD diamond with
thermal conductivity 5-times higher than
that of copper);
• optical and radioelectronic instrument
engineering;
• laser hardware (output windows
on high-power laser systems);
• SHF-teraHertz devices (windows for
gyrotrons);
• cutting and machining tools (extreme
hardness and possibility to grow
monocrystallic CVD diamond);
• nuclear technology (monocrystallic CVD
diamond of electronic quality is an active
element of ionising radiation detectors).
Synthetic diamonds possess a unique
combination of properties (high thermal
conductivity, hardness, chemical inertness,
radiation resistance, etc.), which makes
them irreplaceable materials for use in
extreme conditions.
ESSENSE OF INNOVATION /
CVD-technology enables growing synthetic
diamonds with high rate and big sizes with
predetermined properties.
MARKET POTENTIAL /
• In 2015 the global market of synthetic
diamonds was $1.7bn.
in monetary terms.
• Key segments: optics, electronics,
machining tools.
CURRENT STATUS /
• Industrial production technology for
diamond optics basing on polycrystallic
plates has been developed.
• Technology of obtaining extra-pure
monocrystallic diamonds of electronic
quality has been developed.
• Prototype of diamond detector for
radiotherapy has been developed.
TEAM /
MARINA BORISENKO
CEO, Company development, attraction of
customers, market analysis.
VIKTOR RALCHENKO
Deputy Executive Officer for Science,
PhD in Physics and Mathematics, Head
of laboratory of diamond materials at
GPI NSC RAS, internationally recognized
specialist in the field of CVD diamonds.
IGOR BALASHOV
Chief Technologist, PhD in Engineering,
specialist in technologies of diamond-
like coatings for surgical instruments.
GENNARO CONTE
Consultant, professor, Head of laboratory
of diamond detectors of the Third
University of Roma (Italy).
CVD. SPARK
CONTACTS /
Moscow +7 (499) 271 71 75
mb@technospark.ru
www.cvdspark.com
Теплоотводящая пластина из
поликристаллического алмаза
Heat removal wafers made of polycrystallic diamond
Monocrystallic diamond wafers

36
NEW GENERATION OF SOLID-STATE MULTIPLIER
PHOTOTUBE FOR SCIENCE AND ENGINEERING
PRODUCT /
New generation of solid-state multiplier
phototubes (SMP) capable of replacing
of vacuum multiplier phototubes (VMP)
and ensuring of quantum leap in
parameters of final systems in several
major fields of science and engineering:
• medical rendering systems (PET, CT,
gamma chambers);
• biotechnologies (flow cytometers, DNA
sequencing);
• industry (surface analysers, mass
spectrometers, thickness gauges, laser
scanners);
• physics of high energies (calorimeters,
Cherenkov counters);
• ecology (LIDARs, ozone layer scanners);
• astronomy (telescopes etc.);
• aerospace field (deep-space
communication, location).
The developed DEFAN design eliminates
fundamental difference between dynamic
range and sensitivity inherent to previous
generation of SMPs, thus significantly
expanding scope of their application.
The new technology allows integration of
avalanche amplifier channels into the single
photo-sensitive area, thereby substantially
increasing geometric factor as compared
to the existing “matrix” SMPs.
MARKET POTENTIAL /
• The market of photon sensors and
detectors will amount to $15bn by 2019.
in monetary terms.
• Key segments: solid-state multiplier
phototubes for biomedical (diagnostic)
equipment, diagnostic equipment
of nuclear engineering, analytical
instrumentation, and environment
monitoring equipment.
CURRENT STATUS /
• The instrument laboratory sample has
been developed and manufactured,
in which the SMP design proposed by the
authors of the project has been approved.
Positive testing results have been
obtained.
• Launching of the manufacturing
technology in modern experimental
and production factory is being
completed, within the Skolkovo grant,
output of the instrument engineering
sample is being prepared.
• Commercialization plan and the project
business model have been developed.
• International applications for protection
of the technology in USA, Europe,
and Japan are being prepared.
TEAM /
DMITRY SHUSHAKOV
Scientific Director, planning, coordination
and monitoring of fulfilment of all R&D
programs of the project, development
of the instrument design.
VITALY SHUBIN
Sciences, Research Project Manager,
over 25 years of experience in the field
of study of physical principles of solid-
state multipliers and designs thereof.
NIKOLAY KOLOBOV
Doctor of Engineering, Chief Process
Engineer, over 120 articles and 10
certificates of authorship in the field
of electronic equipment development.
ALEXANDER LEONOV
advisor on commercialization, structuring
of investment transactions and
negotiations (projects on investment
of more than $10bn).
DEFAN — ANALOGUE PHOTON DETECTOR
CONTACTS /
Skolkovo,
Moscow Region
+7 (495) 280 12 91
yp@rqc.ru
The photodetector is the key component
determining efficiency and cost of complex final
systems

37
DEVELOPMENT OF YB-169-BASED INNOVATIVE
SOURCES FOR BRACHYTHERAPY
PRODUCT /
Ceramic ytterbium Yb-169-based source
for AGAT-VT/VP apparatus with intensity
of approx. 10 Curie.
Applications:
high dose-rate brachytherapy (HDRB)
and pulse-brachytherapy. Localization
of malignancies: prostate, female
reproductive system, cervical region.
• Low production cost as compared
to Ir-192 and Co-60 due to the use of laser
technology of isotopes separation.
• Milder radiation spectrum as compared
to Ir-192 for optimal brachytherapy in some
localizations (localization of malignancies
in cervical region, tongue base cancer).
• The source requires no heavy bioshield.
This allows placing of equipment for HDRB
in conventional X-ray rooms and
making HDRB operations affordable for
significantly larger number of patients.
• The new source is adapted for operation
both with domestic and imported HDRB
equipment.
The source with design intensity of ~10
Curie possess high-density ceramic core
(density of ~ 9–10 g/cm3
) with weight of
approximately 10 mg (the analogues have
intensity not exceeding 6 Curie). Ytterbium
enrichment is performed according to the
patented laser technology.
MARKET POTENTIAL /
• The volume of global market of sources
for brachytherapy was estimated to be
approximately $500mln in 2013. Now
brachytherapy is used mostly for treatment
of prostate cancer.
• As of 2013 there are 111 devices in
Russia (140 oncologic dispensaries). About
half of them has no sources. Minimum
estimate of the market is 600 sources per
year (approx. $3mln). In USA ytterbium
sources are being developed,
but no offer of such sources exists in the
market.
CURRENT STATUS /
• Pilot samples of high-density ceramic
cores with density of up to 10 g/cm3
have
been developed.
• Possibility to obtain specific intensity of
1 Curie/mg at ytterbium oxide enrichment
with Yb-168 isotope at the level of 20%
has been shown.
• Preparation is being conducted for
pre-clinical research at the level of cellular
technologies.
TEAM /
VASILI DERZHIYEV
Co-founder and CEO, chief technology
expert, possesses successful 40-year
experience of work in the field of laser
separation of isotopes.
SERGEY AKULINICHEV
Research Project Manager, manager
of the Laboratory of medical physics
of Institute of Nuclear Research of RAS.
Governed by S.V. Akulinichev, the Proton
Therapy Complex of the Institute of
Nuclear Research of RAS (Troitsk) has
been created, and also nuclear physical
research is being conducted of ytterbium
source in radiation experiments at proton
accelerator of the Institute of Nuclear
Research of RAS (Troitsk).
DELIZ
CONTACTS /
Moscow
(Troitsk)
+7 (495) 851 07 24
dom45101@yandex.ru
Ceramic Yb-169 source for AGAT VP, VT apparatus
(Research Institute of Applied Physics and
Automation, OJSC)

38
THE ENERGY-EFFICIENT “M500 MACHINE” GROWS
PARTICULARLY LARGE (UP TO 500 KG) SAPPHIRE
MONOCRYSTALS OF HIGH OPTICAL QUALITY
USING THE GOI METHOD
PRODUCT /
• Self-sintered ceramics
and manufacturing technology of extra-
strong ceramic crucibles for growing of
leucosapphire boules with weight of up
to 500 kg.
• Energy-efficient plant for growing
of large sapphire monocrystals.
• Allows growing of large leucosapphires
(up to 500 kg) and of high optical quality.
• Maximum weight of batch-produced
crystals in the world is 85 kg.
• Prime cost of 1 kg of crystals is by more
than 45% lower than that at similar plants.
Composite ceramic crucibles allow for
the growing of particularly large crystals
that have a high optical quality. Increasing
the size will reduce the specific energy
consumption by 4-5 times and bring up
the plant efficiency by 6 times.
MARKET POTENTIAL /
Global market of leucosapphires amounts
to 15,000 tonnes per year, over $4bn per
year. Annual market growth rate
is 30%. The volume of global market
of the product is $125mln per year. Target
share of the market in 2017: > 12%.
CURRENT STATUS /
• Research stage has been completed,
samples have been obtained.
• The plant prototype is being
manufactured and optimized.
• Patents have been obtained for
feedstock supply device and for sapphire
crystal growing technique with the device
for additional loading of the feedstock.
TEAM /
VLADIMIR TYUTIN
management and development
of comprehensive engineering solutions.
VIKTOR TIKHONOV
scientific developments in the field of
machine building, strength of structural
materials, new engineering equipment.
DELTA-SAPFIRE
CONTACTS /
Sarov +7 (831) 306 33 95
+7 (904) 918 08 29
m500.sarov@gmail.com
http://community.sk.ru/
net/1110289

39
USE OF TAGGED NEUTRONS TECHNIQUE
TO DETERMINE ELEMENTAL COMPOSITION
OF ROCKS AND MINERALS
PRODUCT /
• Plant for diamonds’ detection in
kimberlite ore without its destruction
(starting from 1 carat).
• Detector of rock and mineral elemental
composition in the field conditions.
Applications:
diamond-producing industry,
ore-processing industry, oil exploration,
geological exploration.
• Detection of diamonds
in kimberlite lump ore without its
destruction.
• Detection of concentrations of 24
elements in rocks in the field conditions.
• Sample preparation is not required.
Irradiation of examination object with fast
neutrons with subsequent registration
of gamma radiation peculiar to each
element.
MARKET POTENTIAL /
• Target segment: 5% of the Russian
market (ALROSA) – $200mln.
• International market – $70-100mln.
• Key segments: diamond-producing
industry, analysis of core samples and
slurries, monitoring of feedstock quality
at mining processing facilities.
CURRENT STATUS /
• Tagged neutrons technology has been
approved at laboratory testing stage.
• Diamonds have been found
in kimberlite lump samples.
• The RF invention patent has been
obtained.
• The prototype of pilot plant for dry
recovery of kimberlite has been tested
at Severalmaz’s Lomonosovsky mining
and concentrating enterprise.
• The pilot sample of elemental
composition detector has passed testing
at Olkhonsky geodynamic proving
ground.
TEAM /
TATYANA SYROVATSKAYA
CEO.
MIKHAIL SAPOZHNIKOV
Sciences, Research Project Manager,
130 scientific papers and 18 mechanical
patents.
ANDREY SADOVSKY
Sciences, Chief Engineer, wide experience
in experimental research in ZERN
(Geneva) and Fermilab (USA).
DIAMANT
CONTACTS /
Dubna,
Moscow Region
+7 (496) 216 39 46
Fax: +7 (496) 216 39 35
offce@diamant-sk.ru
www.diamant-sk.ru
Two diamond inclusions of 7–9 mm found inside the
kimberlite sample with weight of 1.5 kg

40
DEVELOPMENT AND IMPLEMENTATION OF RARE
EARTH ELEMENTS’ SEPARATION TECHNOLOGY
PRODUCT /
Multi-purpose extraction nitrate
technology of aggregate concentrate
separation into groups with subsequent
obtaining of individual REEs.
Applications:
separation of individual rare earth
elements from aggregate concentrate
being obtained at deposits.
• Single nitrate medium throughout
all process. No emissions of gaseous
wastes related to transfer between media.
• No solid waste emissions.
• Versatility as regards initial concentrate
of various deposits.
The technology ensures all stages
of rare earth elements separation only
in nitrate medium with no transfer into
sulphuric or hydrochloric acid media.
As a result, no solid and gaseous toxic
waste is generated, electric energy and
consumables use is reduced.
MARKET POTENTIAL /
• The global market of rare earth metals
will amount to approximately $80bn in
2017.
• The market of engineering services and
supplies of the technology will take about
5% of the finished product market, which
is $4bn.
• The project aims to take 20% of the
global market of such services that
amounts to approx. $80mln.
• Key segments: separation of rare earth
elements.
CURRENT STATUS /
The technology is currently being
elaborated (the pilot project is Kutessai
deposit) in continuous mode at
experimental separation cascades. The
technologies of separation of aggregate
REE-concentrate from Kutessai-II deposit
into light-weight and moderate-weight
groups with obtaining of oxides of yttrium,
neodymium, dysprosium, terbium,
europium, and lutetium.
TEAM /
ANDREY FYODOROV
CEO.
VALERY KOSYNKIN
Doctor of Engineering, Research Project
Manager, over 40-year experience
in chemistry of rare earth elements.
SERGEY KOLEGOV
over 20-year experience in technologies
of rare earth elements including 10 years
in commercialization and international
cooperation.
GENNADY SAVCHENKO
PhD in Geological and Mineralogical
Sciences, over 40-year experience in field
development and analytical chemistry
of rare earth elements.
DIDIM
CONTACTS /
Moscow +7 (917) 536 64 35
andfed@gmail.com
Rare earth metals in the periodic table

41
DEVELOPMENT OF A PUMP & COMPRESSOR PIPE
CLEANING MOBILE FACILITY INTENDED TO REMOVE
ASPHALT, RESIN, PARAFFIN AND SALT DEPOSITS
PRODUCT /
The technology is based on two cleaning
methods: air-vibrational and inductive.
Applications:
decontamination services for oil extracting
and servicing companies.
• Mobile transportable facility.
• Low costs of PCP disposal sites
arrangement directly in their storage areas.
• High environmental friendliness of the
process due to the use of decontamination
closed cycle.
• Absence of hazardous chemical
environments in the process.
• Versatility both in part of
decontamination of various PCPs and
contaminants types.
The process combines two methods
of decontamination: air-vibrational and
inductive. A transportable facility enabling
to undertake PCP decontamination from
ARPD and salts in their accumulation and
storage areas, is being developed for the
first time.
MARKET POTENTIAL /
• Russian market of contaminated gas
equipment constitutes at least $100mln.
• Target segment: 25% of the market
in monetary terms.
• The key segment is oilfield equipment
decontamination from ARPD and salts
containing natural radionuclides.
CURRENT STATUS /
• Positive results of PCP decontamination
are achieved on pilot facility with the use
of induction heating method with further
air-vibration cleaning.
• RF patent application is filed.
• 2 letters of interest are signed
on work performance and process
application.
TEAM /
ANDREY MUKHANOV
Co-Founder and CEO.
MIKHAIL ZOKHON
Co-Founder, 20 years of experience
in the claimed field, including international
collaboration experience
in commercialization of obtained results.
SERGEY PRUSHCHAK
Doctor of Economics, Financial Director,
possesses large-scale experience in oil
and gas sector projects implementation.
BORIS BURAKOV
Doctor of Geology and Mineralogy,
radiation research manager; over 100
scientific publications and the work
with international projects in the field of
radiation research.
ECOPOL ТЕCHNOLOGIES
CONTACTS /
St. Petersburg +7 (911) 214 71 26
+7 (812) 652 06 61
Fax +7 (812) 652 06 60
premiumandrew@gmail.com
http://sk.ru/net/1120419

42
TECHNOLOGY OF CONTROL OF MOTIONS
AND INTERACTIONS WITH MANIPULATED
OBJECT AT UNRETENTIVE CONTACT AND
NON-FULL-DRIVE DYNAMICS IN ROBOTICS
APPLICATIONS
PRODUCT /
Educational mechatronic facility
for academical robotics laboratories.
Applications:
improvement of robot user skills and
accuracy of robots including development
of new applications for robots.
There are no educational facilities in the
market that could account the force of
interaction between the manipulated
object and the robot.
Mechatronic complex with open
architecture for university research
activities and research laboratories in the
field of motion control, artificial vision and
robotics, which demonstrates:
• a new method of search and
representation of motions compatible with
dynamic restrictions;
• a new method of motion control with
account for dynamic restrictions;
•new numerical methods of feedback
determination.
MARKET POTENTIAL /
• Market of educational and research
robotics equipment is $1.5bn.
• Target segment: 5–10% of the market.
CURRENT STATUS /
• R&D on the method implementation
of test software versions development
were conducted to detect motions for the
scenarios of both subsystems and robot
with the object of manipulation on the
whole.
• Model experiments on high-precision
motion control of simple robots
in no-touch operations were conducted.
• Positive feedbacks were obtained from
the leading world research centres
of USA, Europe and Asia.
consumers.
TEAM /
ROMAN USATOV-SHIRYAEV
Сo-founder and CEO.
LEONID PARAMONOV
PhD in Engineering, engineering manager.
ANTON SHIRYAEV
PhD in Physics and Mathematics,
professor, scientific advisor.
SERGEY GUSEV
associated professor, research advisor.
LEONID FREYDOVICH
research advisor.
EDUCATIONAL ROBOTICS
CONTACTS /
St. Petersburg +7 (921) 403 97 12
r.usatov-shiriaev@robotics-spb.ru
www.robotics-spb.ru
The “Butterfly” robot

43
ROBOTIC INTEGRATED FACILITY
WITH LASER 3D-SCAN SYSTEM
PRODUCT /
Robotic integrated facility with laser
3D-scan system.
Applications:
automotive industry, mechanical
engineering and metal processing.
• Cost reduction for complex geometry
parts repair.
• Higher quality of parts machining.
• Unique 3D scan system.
Software and hardware solution has
been developed, enabling to integrate 3D
scanner in robotic solutions and existing
industrial manipulators to perform laser
cladding and thermal strengthening
in a real time.
MARKET POTENTIAL /
Automotive industry: from $10-15mln per
year, mechanical engineering: $7-10mln
with growth prospect up to $30mln per
year till 2020. Key segments: automotive
industry, mechanical engineering and
metal processing.
CURRENT STATUS /
• The computer vision system has been
developed based on the proprietary laser
3D scanner.
• Software and hardware solution has
been developed, enabling to integrate
3D scanner in the existing industrial
manipulators.
• Positive outcomes were received from
the tests at FSUE PA Mayak, the process
operability was confirmed.
• The contract with Robotics Centre
(Kazan) to deliver eight facilities equipped
with proprietary systems for part geometry
laser scanning, amounted to $2.8mln;
in 2015 their supply is scheduled
for the total amount of $3,5mln.
TEAM /
RAMIL GAYNUTDINOV
Co-Founder and Project ideologist.
VLADIMIR ANDRYASHIN
CEO.
TIMUR SATDAROV
Commercial Director.
EIDOS-ROBOTICS
CONTACTS /
Kazan +7 (843) 227 40 63
mail@oooeidos.ru
www.oooeidos.ru

44
OF EXTRA-PURE HIGH DENSITY GRAPHITE
PRODUCTION TECHNOLOGY
PRODUCT /
Extra pure high density graphite
of isostatic pressing.
Applications:
nuclear energy, microelectronics and
photovoltaics, electro-erosion treatment
electrodes, heating elements, friction
couples, etc.
• High degree of properties isotropy.
• High chemical stability. High mechanical
stability.
• Low porosity, outstanding surface
roughness characteristics.
• Possibility to produce large-sized blanks.
The process of isostatic graphite
production with the increased sintering
and coking properties to produce new
generation composite materials with
enhanced physical and mechanical
characteristics.
MARKET POTENTIAL /
The market of high density graphites is
about $1bn. Expected share: 3% of the
market.
CURRENT STATUS /
• The laboratory R&D has been performed.
• Test industrial prototypes of IG-175
graphite are manufactured.
TEAM /
ANATOLY MATVEEV
PhD in Chemistry, 9 years of high
technology projects management, 5 years
of work experience in oil and gas industry.
ALEXANDER DUNAYEV
PhD in Chemistry, over 10 years
of experience in the field of carbon
materials.
ALEXEY KVANIN
PhD in Physics and Mathematics, over
8 years experience in the field of surface
physics and carbon composite materials.
VLADIMIR FOKIN
PhD in Engineering, Deputy General
Director for new engineering and processes
at ENERGOPROM MANAGEMENT JSC.
ENERGOPROM, R&D CENTRE
CONTACTS /
Moscow
Memorial sign made of the first batch of high density
extra-pure graphite
+7(495) 789 96 46
Fax: +7 (495) 789 96 47
AMatveev@energoprom.ru
www.energoprom.ru/rdcenter

45
CREATION OF THE SOURCES OF EXTREME
ULTRAVIOLET RADIATION (13.5 NM) FOR
NANOLITHOGRAPHY
PRODUCT /
The project is targeted to solve the range
of key problems preventing to organise
the commercially beneficial production
of next-generation microchips based
on EUV nanolithography:
• process development for industrial
sources of extreme ultraviolet radiation
(13.5 nm) for nanolithography;
• methods development to decontaminate
multilayer optics under EUV radiation
impact;
• process of fast response optical
nanodiagnostics development.
• Revolutionary approach to EUV radiator
development, stipulating the radiation
source capacity theoretical limit over
700 W, compared with 200-250 W in
alternative technology, but more simple
and cheaper.
• The developed nanodiagnostics methods
considerably expand the possibility to
control lithographic process for 22 nm
technology, compared to the existing
methods of near field microscopy.
• The use of liquid metal jets as discharge
electrodes to generate EUV radiation.
• The use of spectra of chromophoric
molecules incorporated into research
medium as spectral probes for the
purposes of nanodiagnostics.
• The use of EUV-induced plasma for
decontamination of optics and mirror
surfaces.
MARKET POTENTIAL /
• Lithographic equipment market capacity
is $30bn.
• The main customer and process
consumer is ASML, the largest
manufacturer of lithographic machines
(62% of the world market).
CURRENT STATUS /
• The designed prototype characteristics
are demonstrated:
- tin pumping velocity is minimum
5 m/sec.;
- applied electric power 4 kW;
- the possibility to develop EUV
sources with over 100 W capacity was
demonstrated.
• Nano-probe molecules coordinates
identification method is optimized
in prototype lateral plate with precision
up to 5 nm.
• Multilayer optics decontamination
methods have been developed with
amorphous carbon under EUV radiation.
TEAM /
KONSTANTIN KOSHELEV
PhD in Physics and Mathematics, Chief
Research Assistant, Head of Laboratory
of Plasma Spectroscopy at RAS Institute
of Spectroscopy, Chief Research Assistant
at the Institute of Plasma Physics
(the Netherlands), Professor of Paris-Sud
and Pierre et Marie Curie Universities
(France).
ARTEM KROTOV
CEO, international experience in innovation
projects management, investments
involvement and structuring transactions.
EUV LABS
CONTACTS /
Moscow (Troitsk) +7 (985) 217 88 00
Artem.krotov@euvr.net
www.euvlabs.ru

46
DEVELOPMENT OF NEW GENERATION
FEMTOSECOND INDUSTRIAL LASER
PRODUCT /
Femtosecond laser of new generation with
increased average emission power and
nearby pulse groups generation system.
Applications:
photolithographic masks processing,
solar panels production, cardiovascular
stents production, diamonds processing,
production of channels for injection ICE
nozzles, sapphire protection screens
processing, etc.
• “Cold ablation” mode: at ultrashort pulse
durations, there are no side heat effects
at processing.
• High average emission power.
• Pulse groups generation mode to
increase performance and efficient
processing depth.
The innovative mode of nearby pulse
groups generation enables to increase
the system efficiency and to cover more
potential applications.
MARKET POTENTIAL /
• Microprocessing laser systems market
is $3bn/year.
• Target segment: 2-4% of the market
in monetary terms.
• Key segments: lithography technologies,
sapphire microprocessing, stents
production, ICE nozzles production.
Photoresist areas removed from a
photomask surface by femtosecond laser.
CURRENT STATUS /
• Laboratory R&D on possible pulse
groups generation methods are
conducted.
• The project team successfully
commercialised and launched the market
sales of the first generation of laser
sources.
• Femtosecond microprocessing various
processes testing and adjustment for the
wide range of customers.
TEAM /
МАТVEY КОNYASHCHENKO
Co-founder and CEO, over 10 years
of experience in international sales of laser
equipment.
LEONID LOSEV
Doctor of Engineering, Research Project
Manager, over 30 years of scientific work
in the field of laser physics.
SERGEY TENYAKOV
Chief Engineer, over 15 years of experience
in amplifying laser systems development
and production
ANTON TAUSENEV
Senior Engineer, over 10 years of
experience in fibre laser systems
development and production.
FEMTONICS
CONTACTS /
Moscow (Troitsk)
+7 (495) 967 94 73
Fax: +7 (495) 646 04 95
sales@femtonica.ru
www.femtonica.ru
Photoresist areas removed from a photomask
surface by femtosecond laser

47
DEVELOPMENT OF FIBRE-OPTIC SENSOR
SYSTEMS BASED ON FEMTOSECOND
RECORDING PROCESS
PRODUCT /
Fibre-optic sensor systems developed
by the refraction index femtosecond
modification in optic fibres.
• Possibility to use non-photosensitive
fibres to produce sensors that can be
used in tough environments (operating
temperatures up to 350°С, expanded
deformations up to 2%, operation in
environment with increased hydrogen
content).
• Possibility to record without removing
the protective shield increases sensor's
durability.
• No fibre pre-treatment, thus reducing
sensor recording times.
Application of the technology
of transparent materials femtosecond
modification for producing fibre-optic
sensors.
MARKET POTENTIAL /
• World market of fibre-optic sensors
is $1.6bn with estimated average annual
growth by 20%.
• Promising market segments: oil and gas
wells thermometry, monitoring in medicine,
operational monitoring of composite
materials.
CURRENT STATUS /
• An experimental device for sensor
femtosecond recording in non-
photosensitive fibres has been developed.
• Fibre-optic sensors have been produced
with improved technical characteristics.
• Positive feedback from potential
customers has been received.
TEAM /
ALEXANDER ZELENIN
Co-Founder and CEO, extensive
experience in R&D management
and implementation of R&D results
in production processes.
ALEXANDER DOSTOVALOV
Co-Founder and CTO, extensive
experience in R&D management
and implementation of R&D results
in production processes.
FEMTOTECH
CONTACTS /
Novosibirsk +7 (383) 332 82 54
market@femtotech.ru
www.femtotech.ru
Fibre-optic sensor

48
DEVELOPMENT OF X-RAY FLUORESCENT
SPECTROMETERS FOR THE STUDY
OF ELEMENTAL COMPOSITION OF SOLIDS
AND LIQUIDS
PRODUCT /
• Portable X-ray fluorescent spectrometer
for the analysis of heavy metals in
ecology, medicine and pharmacy.
• Spectrometers for automated service
on the expertise of various materials.
• The spectrometer is 3 times cheaper
than its laboratory analogues.
• Round-the-year maintenance of the
spectrometer is 6–8 times cheaper than
that of the laboratory analogues.
• Sensitivity is several orders of
magnitude higher as compared with other
portable systems.
• One facility allows determination
of a big variety of elements in a wide
range of concentrations.
The project is about the development
of a XRF-spectrometer basing on
modern components of X-ray optics.
This technique allows the determination
of mass shares of chemical elements
important for human health at the level
previously inaccessible for such types
of spectrometers.
MARKET POTENTIAL /
• Global market of X-ray equipment
is $0.9bn.
• Global market of the equipment for
elemental analysis in ecology, medicine
and pharmacy is about $1bn.
• Annual CAGR market growth is 6–7%.
• Target segment: В2В and B2G sales
to governmental and private laboratories
(ecology, medicine, pharmacy).
CURRENT STATUS /
• A new element of X-ray optics was
offered and implemented (patented
invention).
• A facility prototype was tested in
laboratory conditions, unique analytical
parameters were demonstrated.
• Special features of the analysis and
sample preparation of some materials —
water, food products, etc. — were studied.
TEAM /
VYACHESLAV REVENKO
CEO. Project management, marketing and
sales, attracting investments.
VYACHESLAV GUSEV
Engineering director. Structure, design,
organization of production.
ANATOLY REVENKO
Doctor of Engineering, Deputy Director
of the Development. Techniques,
interaction with regulatory authorities.
FIRST X-RAY LABORATORY
CONTACTS /
Moscow +7 (916) 103 35 23
viacheslav.revenko@gmail.com
Scheme of X-ray spectrometer for heavy metal
analysis.
Semiconductor
detector
Primary
beam
X-ray tube Sample
on a wafer
Completely
reflected beam
Fluorescent
radiation

49
DEVELOPMENT OF FOURIER SPECTROMETER
WITH EXPANDED SPECTRAL RANGE
PRODUCT /
Fourier spectrometer, operating in UV,
visible and near IR spectral range.
Applications:
spectroscopy, quality control, material
analysis, detection of chemical elements
concentrations.
• Operation in wide spectral range.
• Several spectrometers substitution with
one instrument.
• Routine tests time reduction.
• Settings flexibility for more precise
measurements.
• High dynamic range and other
advantages of Fourier technology.
New modulation method of optical delay
in interferometer enabled to expand the
spectral range of Fourier spectrometer.
MARKET POTENTIAL /
• Market volume is $1.5bn (2013).
• Target segment: 10% of the market.
• Molecular spectroscopy market key
segments: UV, visible, NIR.
• Key consumers: scientific and
educational institutions, quality control
laboratories (food and chemical
industries).
CURRENT STATUS /
• Pilot prototype of Fourier spectrometer
has been developed.
• Joint tests with Anton Paar company
(Austria) have been conducted.
• 2 RF patent claims (2 PCT applications)
were filed.
• The search for strategic partner and
co-investor to finalize a prototype to
commercial version.
TEAM /
ARTUR GEYVANDOV
experience in applied R&D management
SERGEY PALTO
Doctor of Physics and Mathematics,
scientific advisor, inventor of new optical
delay method for Fourier spectrometer.
ALEXEY BRATISHCHEV
Chief Optical Engineer, over 7 years of
experience in optical instruments design
of various applications, author of over 20
patents.
FOURIER PHOTONICS
CONTACTS /
Moscow +7 (916) 626 53 76
info@fourierphotonics.com
www.fourierphotonics.com
Fourier spectrometer of UV-visible-NIR range

50
PRODUCT /
Laser hygrometer is the instrument for
measuring gas moisture using diode laser
spectroscopy. It ensures measurement
of water content in gas phase within
a gas mixture. It is intended for use at
facilities of gas processing industry,
e.g. to monitor humidity at the output of
natural gas dehydration plants, and also
at custody transfer meters to check gas
humidity for compliance with the process
specifications.
• Its cost is 1.5 lower than that of similar
foreign devices.
• Insensible to contamination of the
hygrometer optic components and gas
mixture.
• High sensitivity and selectivity ensures
accurate detection of water vapours
against other gas mixture components.
• With the aid of a laser, a contact-free
moisture content measuring technique
is implemented.
• The laser spectroscopic technology
provides stable and precise measurement
of humidity of a gas stream with high
content of various hydrocarbons and
process admixtures.
• The hygrometer comprises sampling
system, optical cell,
and electronic unit. In the optical cell,
laser radiation at certain wavelength
passes through the tested medium and
is partially absorbed by water vapours.
MARKET POTENTIAL /
• Sales market is $25mln, with the
instrument cost of $25,000.
• Approximately 600 instruments are
planned to be sold to gas production and
transportation companies till 2020.
• In all segments of CIS market including
gas industry, sales of approximately 1,000
GALAN laser gas analysers is planned.
GL-02 LASER HYGROMETER
GALAN
CONTACTS /
Sarov +7 (83130) 75353
+7 (920) 028 40 36
boikov@binar.ru
CURRENT STATUS /
• The hygrometer pilot sample has been
developed.
• Error of the dew point measurements in
the range from -55 to +20°C is ±1°C.
• Production test of the hygrometer was
conducted at a state district power plant
in July, 2015.
• A pilot batch is planned for production.
• The RF patent for utility model has been
obtained.
• In future, R&D on expansion of range of
measured gases with CH4, O2, H2S, NH3
is planned, as well as the creation of
a multi-channel gas analyser.
TEAM /
VALERY BOIKOV
CEO, leading expert in marketing.
OLEG VYSKUBENKO
Director of Science, Doctor of Science
degree.
IVAN MOROZOV
leading specialist, PhD in Physical and
Mathematical Sciences.
STANISLAV YEZHOV
leading designer of electronic hardware
package.
YURY ANIKEYEV
leading software designer.
GL-02 hygrometer general view

51
NEW GENERATION OF INSTRUMENTS FOR FIELD
GEOPHYSICAL MEASUREMENTS
PRODUCT /
• Group of field instruments intended
for measuring of various physical fields
(radiation, magnetic, seismic etc.),
including simultaneous measuring
of several fields, with a wide range
of service capabilities and based upon
the developed unique single instrument
platform.
Applications:
• field geological exploration and ecology;
• monitoring of geotechnical systems.
• Enhanced performance with preserved
traditional metrological patterns
allows 1.5–2 times increase of field
measurements efficiency.
• A set of interfaces for data
communication and interaction with
operator: global navigation, wireless
Internet, voice activation.
• United maintenance based upon the
instrument platform.
• Low price as compared to the
analogues.
The project’s product innovation
is ensured by the use of single instrument
platform. The platform was created to
develop the different-purpose instruments
intended for work within a single industry
field. The methodical premise is a
common pattern of operator’s actions and
a single set of service functions.
MARKET POTENTIAL /
• The global market of field radiometers,
spectroradiometers, magnetometers
amounts to $11-13mln, according to
expert evaluations.
in physical terms.
CURRENT STATUS /
• The prototype instrument, Flagman
Gamma field radiometer, has been
created (launched in the market in 2013);
on its base, main engineering solutions for
the whole group of instruments have been
checked and confirmed.
• The following works are being
conducted on creation of prototype
instruments: elaboration of engineering
solutions, creation of multi-purpose and
dedicated modules.
TEAM /
VIKTOR DENISOV
Doctor of Engineering,
Co-founder and CEO.
ANDREY RADILOV
Deputy CEO for R&D, one of the authors
of new generation instruments’ concept.
ALEXANDER SUKHIKH
Chief Design Engineer, managed the
development of the instrument pilot
models.
ALEXANDER TITOV
Deputy CEO for Finance and Investments.
GEOMASH ENGINEERING
CONTACTS /
St. Petersburg +7 (911) 982 39 09
070255@gmail.com
www.flagman-geo.ru
The prototype instrument, Flagman Gamma field
radiometer (during operation)

52
PRODUCT /
• Comprehensive automated process
solutions of industrial product dimensional
testing on the basis of proprietary
software.
• Dimensional testing systems.
• Servicing and maintenance
of dimensional testing systems.
Applications:
areas of cutting and recovery of pipe
threads, quick-release couplings, complex
internal surfaces of hydraulic fixtures.
• Laser sensor automatic measuring
of couplings in accordance with regulatory
documentation.
• The unique laser scanner provides
measuring of couplings with diameters
starting from 73 mm.
• Multiple-fold (8–10 times) reduction
of operator’s labour intensity.
• Possibility to measure parameters
of complicated (“premium”) joints.
• Easy update of the product range.
• Integration into the process line.
• Automatic collection of error statistics,
time; generation of reports.
The technology combines the cutting-
edge laser measuring techniques,
coordinate measuring stations, and unique
software algorithms with possibility
of on-line automatic interpretation
of thread scanning data.
MARKET POTENTIAL /
• The market of geometry inspection
systems amounts to $2bn. Target segment
is 5–10% of the market in monetary terms.
• Key segments: dimensional inspection
of geometrically complicated parts,
inspection directly at the production line.
CURRENT STATUS /
• The system prototype has been created
and tested.
• Positive testing results have been
obtained from potential customers,
operability of the technology has been
confirmed.
OF DIMENSIONAL CHECK SYSTEMS
FOR GEOMETRICALLY COMPLICATED PARTS
GEOMERA
CONTACTS /
Yekaterinburg +7 (343) 382 52 03
+7 (912) 614 64 10
teh@kim96.ru
www.kim96.ru
• 1 patent of the RF has been obtained,
and ЗСЕ application has been filed.
customers.
TEAM /
DMITRY LAVRINOV
Founder and CEO.
SERGEY VOROZHEV
leading programmer, 5-year experience
in development of applications in C++.
ALEXANDER BUDNIK
design engineer. Scientific and practical
experience of development
of applications for CNC systems.
SERGEY POKAZANIYEV
implementation engineer. 5-year
experience in sales and implementation
of measuring equipment.
The system of automatic dimensional inspection of
oilfield tubular coupling threads
Laser trigonometrical scanning of a
three-dimensional geometry map of a tested part

53
PORTABLE CURRENT SOURCES
ON FUEL CELLS
PRODUCT /
Portable current sources for charging
portable equipment consist of a
replaceable cartridge with activated
aluminium and a charging device with fuel
cell battery.
• Environmentally friendly storage and
operation method: the required amount
of hydrogen is produced at the moment
of its consumption, the initial reagents and
reaction products (aluminium hydroxides)
are safe for human health.
• In case of power absence, starting from
the second or third charging procedure,
the cost of power from designed power
sources becomes lower than the cost
of power from lithium-ion batteries.
Portable current sources are based on
aluminium-water hydrogen generators
and hydrogen-air fuel cells. The cartridge
includes activated aluminium and water,
mixed when the cartridge is inserted into
the device, forming aluminium oxide and
hydrogen, which pass through a proton
exchange membrane, and create a current
to charge electronic devices.
MARKET POTENTIAL /
According to the forecasts, the market of
all portable charging devices will reach
$34bn by 2016. The world market of
portable charging devices on fuel cells will
reach about 9 mln. pcs. by 2016, i.е. it will
achieve 1% penetration level with regard
of global sales of smartphones.
CURRENT STATUS /
• Laboratory models (2-5 W) have been
manufactured and tested.
• Their design was developed and the
models were fabricated.
• The device prototype (5 W) was
produced.
• Various components were purchased
for testing in operating device prior to pilot
batch startup.
• Crowdfunding campaign is being
prepared.
HANDYPOWER
CONTACTS /
Moscow
Design model
Laboratory sample
Prototype relevant model
+7 (915) 492 08 43
nafikoff@gmail.com
http://community.sk.ru/net/1120190/
TEAM /
RINAT NAFIKOV
CEO.
YEVGENY SHKOLNIKOV
Research Director. Since 2006 he
managed over 30 projects, including the
international ones. The projects were
carried out in the Joint Institute for High
Temperatures of the RAS in the field of
aluminium-hydrogen power sector.

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