This document provides information about an international conference on nanotechnology and nanoscience to be held in Osaka, Japan from September 28-30, 2018. The conference aims to gather scientists, academics, and engineers from various disciplines to share latest research, exchange ideas, and collaborate. The tentative program outlines various oral and poster presentation sessions over the three days covering topics in nanotechnology and nanoscience. The welcome message invites colleagues from academia and business as well as young researchers worldwide to attend and take advantage of the networking opportunities and cultural experiences Osaka has to offer.
Revolution of Nanotechnology:
Theory and Application
2016
Dr. nat.Sci. Ahmed Abdel-Megeed
Ph.D Germany, Hamburg University
Associate Professor, Plant Protection Dept.
Faculty of ِِِAgriculture- Alexandria University
Alexandria, Egypt
P.O. BOX 21531
Homepage: http://faculty.ksu.edu.sa/75164/default.aspx
What is nanotechnology?
History
Nanoscale
Manufacturing at the nanoscale
Working at the nanoscale
Size of the nanoscale
Application
Conclusion
References
Revolution of Nanotechnology:
Theory and Application
2016
Dr. nat.Sci. Ahmed Abdel-Megeed
Ph.D Germany, Hamburg University
Associate Professor, Plant Protection Dept.
Faculty of ِِِAgriculture- Alexandria University
Alexandria, Egypt
P.O. BOX 21531
Homepage: http://faculty.ksu.edu.sa/75164/default.aspx
What is nanotechnology?
History
Nanoscale
Manufacturing at the nanoscale
Working at the nanoscale
Size of the nanoscale
Application
Conclusion
References
History.
Definition.
Techniques of nanotechnology.
Application in nanotechnology.(Nanomedicine,)
(Nanoelectronics,Nanoagriculture,Nanospace and many others)
Advantages of nanotechnology.
Disadvantages of nanotechnology.
Conclusion.
Nano-biotechnology is a promising field of interdisciplinary research. It is a novel scientific approach that involves the use of materials and equipment capable of manipulating physical as well as chemical properties of a substance at molecular levels. Nanoparticles present an extremely gorgeous platform for a diverse range of biological applications. It opens up a wide array of opportunities in various fields like medicine, pharmaceuticals, electronics and agriculture. Nanotechnology is ubiquitous and pervasive. It is an emerging field in all areas of science, engineering and technology. The marriage between nanotechnology and biotechnology yields a new class of nanostructured hybrid patterns that will be very efficient and useful as environmental adsorbents, absorbent materials and adhesion materials in environment.
This are can endeavour to provide and fundamentally streamline the technologies currently used in environmental detection, sensing and remediation. Rapid testing technologies and biosensors related to the control of pests and cross contamination of agriculture and food products will lead to applications of nanotechnology in the near future. These include agricultural productivity enhancement involving nanoporous zeolites for slow release and efficient dosage of water and fertilizer, nanocapsules for herbicide delivery and vector and pest management and nanosensors for pest detection. Most investment is made primarily in developed countries; research advancements provide glimpses of potential applications in agriculture. This overview is concentrated on modern strategies used for the management of water, pesticides, limitations in the use of chemical pesticides and potential of nano-materials in sustainable agriculture management as modern approaches of nano-biotechnology.
The outlook of nano-bioscience in agriculture is vague owing to a lot of grounds, for example, the unconstructive response from people towards genetically modified (GM) crops, need of a lot of required cleverness in government agricultural research and technology units for nano type of explorations and poorly-equipped new instruments and new-fangled technologies. Welcome to Nano World.
The Next Very BIG (small) Thing
Contents:
Introduction to Nanotechnology
Applications In Today's Life
Advantages & Disadvantages
Future Of Nanotechnoogy
History.
Definition.
Techniques of nanotechnology.
Application in nanotechnology.(Nanomedicine,)
(Nanoelectronics,Nanoagriculture,Nanospace and many others)
Advantages of nanotechnology.
Disadvantages of nanotechnology.
Conclusion.
Nano-biotechnology is a promising field of interdisciplinary research. It is a novel scientific approach that involves the use of materials and equipment capable of manipulating physical as well as chemical properties of a substance at molecular levels. Nanoparticles present an extremely gorgeous platform for a diverse range of biological applications. It opens up a wide array of opportunities in various fields like medicine, pharmaceuticals, electronics and agriculture. Nanotechnology is ubiquitous and pervasive. It is an emerging field in all areas of science, engineering and technology. The marriage between nanotechnology and biotechnology yields a new class of nanostructured hybrid patterns that will be very efficient and useful as environmental adsorbents, absorbent materials and adhesion materials in environment.
This are can endeavour to provide and fundamentally streamline the technologies currently used in environmental detection, sensing and remediation. Rapid testing technologies and biosensors related to the control of pests and cross contamination of agriculture and food products will lead to applications of nanotechnology in the near future. These include agricultural productivity enhancement involving nanoporous zeolites for slow release and efficient dosage of water and fertilizer, nanocapsules for herbicide delivery and vector and pest management and nanosensors for pest detection. Most investment is made primarily in developed countries; research advancements provide glimpses of potential applications in agriculture. This overview is concentrated on modern strategies used for the management of water, pesticides, limitations in the use of chemical pesticides and potential of nano-materials in sustainable agriculture management as modern approaches of nano-biotechnology.
The outlook of nano-bioscience in agriculture is vague owing to a lot of grounds, for example, the unconstructive response from people towards genetically modified (GM) crops, need of a lot of required cleverness in government agricultural research and technology units for nano type of explorations and poorly-equipped new instruments and new-fangled technologies. Welcome to Nano World.
The Next Very BIG (small) Thing
Contents:
Introduction to Nanotechnology
Applications In Today's Life
Advantages & Disadvantages
Future Of Nanotechnoogy
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The emergence of nanotechnology in th1980’s was caused by convergence of experimental advances such as the invention of the scanning tunneling microscope in 1981 and the discovery of fullerenes in 1985. Now the nanotechnology products are used in various fields such as medical, material science, automobile etc. In this topic the various applications of nanotechnology in the renewable energy sources exploitation have been discussed.
WHO SHOULD ATTEND?
This course will cover the topic of nanomaterials focusing on how defining the classes of nanomaterials based on their dimensionality and properties, methods of formation of nanomaterials and common characterization methods to investigate the nanomaterials formed. It is designed for those who are active or intended to be active in this field which includes Researchers, Scientists and Engineers. As the field of nanomaterials is developing very rapidly, the course provides an ideal opportunity to review the scope and applicability of the currently available and emerging nanomaterials in various engineering industries.
INTRODUCTION
This module starts by defining nanotechnology and surveying on the status of the technology at the moment. Then, it focuses on the most important fundamental component that enables nanotechnology: nanomaterials. Indeed, nanomaterials are very important thus have been developed as a consequence of truly significant recent advances within the materials science community. This module integrates knowledge of this development; from most of the possible techniques to produce or synthesis nanomaterials of various dimensions: 0, 1, 2 and 3 dimensions i.e. nanoparticles, nanotubes / nanorods, nanocoating / nanofilm and nanoporous materials, mode of characterisations of the nanomaterials formed and also on the applications of nanomaterials in various fields. At the end of the module, topic on nanotoxicology and safety issues are introduced and discussed.
This module is designed for those who are active or intended to be active in this field and has a main aim as to simulate interest in this important field.
COURSE OBJECTIVES
i. To introduce and discuss on the topic of nanotechnology and nanomaterials.
ii. To establish understanding on common methods for the production of nanomaterials and on the characterisation techniques.
iii. To address the importance of expanding research and innovation in nanoscale science and engineering.
Similar to Nanotechnology tentative conference program sept28- 30,2018 (20)
Slide 1: Title Slide
Extrachromosomal Inheritance
Slide 2: Introduction to Extrachromosomal Inheritance
Definition: Extrachromosomal inheritance refers to the transmission of genetic material that is not found within the nucleus.
Key Components: Involves genes located in mitochondria, chloroplasts, and plasmids.
Slide 3: Mitochondrial Inheritance
Mitochondria: Organelles responsible for energy production.
Mitochondrial DNA (mtDNA): Circular DNA molecule found in mitochondria.
Inheritance Pattern: Maternally inherited, meaning it is passed from mothers to all their offspring.
Diseases: Examples include Leber’s hereditary optic neuropathy (LHON) and mitochondrial myopathy.
Slide 4: Chloroplast Inheritance
Chloroplasts: Organelles responsible for photosynthesis in plants.
Chloroplast DNA (cpDNA): Circular DNA molecule found in chloroplasts.
Inheritance Pattern: Often maternally inherited in most plants, but can vary in some species.
Examples: Variegation in plants, where leaf color patterns are determined by chloroplast DNA.
Slide 5: Plasmid Inheritance
Plasmids: Small, circular DNA molecules found in bacteria and some eukaryotes.
Features: Can carry antibiotic resistance genes and can be transferred between cells through processes like conjugation.
Significance: Important in biotechnology for gene cloning and genetic engineering.
Slide 6: Mechanisms of Extrachromosomal Inheritance
Non-Mendelian Patterns: Do not follow Mendel’s laws of inheritance.
Cytoplasmic Segregation: During cell division, organelles like mitochondria and chloroplasts are randomly distributed to daughter cells.
Heteroplasmy: Presence of more than one type of organellar genome within a cell, leading to variation in expression.
Slide 7: Examples of Extrachromosomal Inheritance
Four O’clock Plant (Mirabilis jalapa): Shows variegated leaves due to different cpDNA in leaf cells.
Petite Mutants in Yeast: Result from mutations in mitochondrial DNA affecting respiration.
Slide 8: Importance of Extrachromosomal Inheritance
Evolution: Provides insight into the evolution of eukaryotic cells.
Medicine: Understanding mitochondrial inheritance helps in diagnosing and treating mitochondrial diseases.
Agriculture: Chloroplast inheritance can be used in plant breeding and genetic modification.
Slide 9: Recent Research and Advances
Gene Editing: Techniques like CRISPR-Cas9 are being used to edit mitochondrial and chloroplast DNA.
Therapies: Development of mitochondrial replacement therapy (MRT) for preventing mitochondrial diseases.
Slide 10: Conclusion
Summary: Extrachromosomal inheritance involves the transmission of genetic material outside the nucleus and plays a crucial role in genetics, medicine, and biotechnology.
Future Directions: Continued research and technological advancements hold promise for new treatments and applications.
Slide 11: Questions and Discussion
Invite Audience: Open the floor for any questions or further discussion on the topic.
Deep Behavioral Phenotyping in Systems Neuroscience for Functional Atlasing a...Ana Luísa Pinho
Functional Magnetic Resonance Imaging (fMRI) provides means to characterize brain activations in response to behavior. However, cognitive neuroscience has been limited to group-level effects referring to the performance of specific tasks. To obtain the functional profile of elementary cognitive mechanisms, the combination of brain responses to many tasks is required. Yet, to date, both structural atlases and parcellation-based activations do not fully account for cognitive function and still present several limitations. Further, they do not adapt overall to individual characteristics. In this talk, I will give an account of deep-behavioral phenotyping strategies, namely data-driven methods in large task-fMRI datasets, to optimize functional brain-data collection and improve inference of effects-of-interest related to mental processes. Key to this approach is the employment of fast multi-functional paradigms rich on features that can be well parametrized and, consequently, facilitate the creation of psycho-physiological constructs to be modelled with imaging data. Particular emphasis will be given to music stimuli when studying high-order cognitive mechanisms, due to their ecological nature and quality to enable complex behavior compounded by discrete entities. I will also discuss how deep-behavioral phenotyping and individualized models applied to neuroimaging data can better account for the subject-specific organization of domain-general cognitive systems in the human brain. Finally, the accumulation of functional brain signatures brings the possibility to clarify relationships among tasks and create a univocal link between brain systems and mental functions through: (1) the development of ontologies proposing an organization of cognitive processes; and (2) brain-network taxonomies describing functional specialization. To this end, tools to improve commensurability in cognitive science are necessary, such as public repositories, ontology-based platforms and automated meta-analysis tools. I will thus discuss some brain-atlasing resources currently under development, and their applicability in cognitive as well as clinical neuroscience.
THE IMPORTANCE OF MARTIAN ATMOSPHERE SAMPLE RETURN.Sérgio Sacani
The return of a sample of near-surface atmosphere from Mars would facilitate answers to several first-order science questions surrounding the formation and evolution of the planet. One of the important aspects of terrestrial planet formation in general is the role that primary atmospheres played in influencing the chemistry and structure of the planets and their antecedents. Studies of the martian atmosphere can be used to investigate the role of a primary atmosphere in its history. Atmosphere samples would also inform our understanding of the near-surface chemistry of the planet, and ultimately the prospects for life. High-precision isotopic analyses of constituent gases are needed to address these questions, requiring that the analyses are made on returned samples rather than in situ.
The ability to recreate computational results with minimal effort and actionable metrics provides a solid foundation for scientific research and software development. When people can replicate an analysis at the touch of a button using open-source software, open data, and methods to assess and compare proposals, it significantly eases verification of results, engagement with a diverse range of contributors, and progress. However, we have yet to fully achieve this; there are still many sociotechnical frictions.
Inspired by David Donoho's vision, this talk aims to revisit the three crucial pillars of frictionless reproducibility (data sharing, code sharing, and competitive challenges) with the perspective of deep software variability.
Our observation is that multiple layers — hardware, operating systems, third-party libraries, software versions, input data, compile-time options, and parameters — are subject to variability that exacerbates frictions but is also essential for achieving robust, generalizable results and fostering innovation. I will first review the literature, providing evidence of how the complex variability interactions across these layers affect qualitative and quantitative software properties, thereby complicating the reproduction and replication of scientific studies in various fields.
I will then present some software engineering and AI techniques that can support the strategic exploration of variability spaces. These include the use of abstractions and models (e.g., feature models), sampling strategies (e.g., uniform, random), cost-effective measurements (e.g., incremental build of software configurations), and dimensionality reduction methods (e.g., transfer learning, feature selection, software debloating).
I will finally argue that deep variability is both the problem and solution of frictionless reproducibility, calling the software science community to develop new methods and tools to manage variability and foster reproducibility in software systems.
Exposé invité Journées Nationales du GDR GPL 2024
What is greenhouse gasses and how many gasses are there to affect the Earth.moosaasad1975
What are greenhouse gasses how they affect the earth and its environment what is the future of the environment and earth how the weather and the climate effects.
This presentation explores a brief idea about the structural and functional attributes of nucleotides, the structure and function of genetic materials along with the impact of UV rays and pH upon them.
DERIVATION OF MODIFIED BERNOULLI EQUATION WITH VISCOUS EFFECTS AND TERMINAL V...Wasswaderrick3
In this book, we use conservation of energy techniques on a fluid element to derive the Modified Bernoulli equation of flow with viscous or friction effects. We derive the general equation of flow/ velocity and then from this we derive the Pouiselle flow equation, the transition flow equation and the turbulent flow equation. In the situations where there are no viscous effects , the equation reduces to the Bernoulli equation. From experimental results, we are able to include other terms in the Bernoulli equation. We also look at cases where pressure gradients exist. We use the Modified Bernoulli equation to derive equations of flow rate for pipes of different cross sectional areas connected together. We also extend our techniques of energy conservation to a sphere falling in a viscous medium under the effect of gravity. We demonstrate Stokes equation of terminal velocity and turbulent flow equation. We look at a way of calculating the time taken for a body to fall in a viscous medium. We also look at the general equation of terminal velocity.
Richard's aventures in two entangled wonderlandsRichard Gill
Since the loophole-free Bell experiments of 2020 and the Nobel prizes in physics of 2022, critics of Bell's work have retreated to the fortress of super-determinism. Now, super-determinism is a derogatory word - it just means "determinism". Palmer, Hance and Hossenfelder argue that quantum mechanics and determinism are not incompatible, using a sophisticated mathematical construction based on a subtle thinning of allowed states and measurements in quantum mechanics, such that what is left appears to make Bell's argument fail, without altering the empirical predictions of quantum mechanics. I think however that it is a smoke screen, and the slogan "lost in math" comes to my mind. I will discuss some other recent disproofs of Bell's theorem using the language of causality based on causal graphs. Causal thinking is also central to law and justice. I will mention surprising connections to my work on serial killer nurse cases, in particular the Dutch case of Lucia de Berk and the current UK case of Lucy Letby.
(May 29th, 2024) Advancements in Intravital Microscopy- Insights for Preclini...Scintica Instrumentation
Intravital microscopy (IVM) is a powerful tool utilized to study cellular behavior over time and space in vivo. Much of our understanding of cell biology has been accomplished using various in vitro and ex vivo methods; however, these studies do not necessarily reflect the natural dynamics of biological processes. Unlike traditional cell culture or fixed tissue imaging, IVM allows for the ultra-fast high-resolution imaging of cellular processes over time and space and were studied in its natural environment. Real-time visualization of biological processes in the context of an intact organism helps maintain physiological relevance and provide insights into the progression of disease, response to treatments or developmental processes.
In this webinar we give an overview of advanced applications of the IVM system in preclinical research. IVIM technology is a provider of all-in-one intravital microscopy systems and solutions optimized for in vivo imaging of live animal models at sub-micron resolution. The system’s unique features and user-friendly software enables researchers to probe fast dynamic biological processes such as immune cell tracking, cell-cell interaction as well as vascularization and tumor metastasis with exceptional detail. This webinar will also give an overview of IVM being utilized in drug development, offering a view into the intricate interaction between drugs/nanoparticles and tissues in vivo and allows for the evaluation of therapeutic intervention in a variety of tissues and organs. This interdisciplinary collaboration continues to drive the advancements of novel therapeutic strategies.
Professional air quality monitoring systems provide immediate, on-site data for analysis, compliance, and decision-making.
Monitor common gases, weather parameters, particulates.
Nanotechnology tentative conference program sept28- 30,2018
1.
2. Welcome Message
It is my pleasure to invite colleagues from Academia and business, Young Researchers from all
parts of the world to attend International Conference on Nanotechnology and Nanoscience which is
going to be held inOsaka, Japan from September 28-30,2018 (ICNTNS-18) with the Theme:
Exploring new ideas and Innovations in Nanotechnology The present century has seen
revolutionary and groundbreaking Discoveries in the field of Nanotechnology and Nanoscience.
The pace of innovative research has seemed to have gained momentum with their scientific
methodology and approach. Nanotechnology has revolutionized our life in various sectors with its
enormous applications in serving the Mankind through its properties. Many of its properties have
found practical applications in technology and Medicine and have been pioneer for the benefit of
Mankind. The meeting will gather a multi-disciplinary group of Scientists, Academicians,
Engineers to share their latest research work, Exchange ideas and paves the way for future
discoveries and Research work. We wish to make a community of Scientists and research
collaborations among the participants in the near future. Apart from your experience of having great
conference, the location of the event is Osaka which is a well known destination and is very famous
for its culture and hospitality. Osaka cordially welcomes you all and is ready to embrace you with
its open hands.
Your's Truly,
Tamio Endo, the Conference Chair
Japan Advanced Chemicals, Atsugi, Japan
Professor Emeritus Mie University, Tsu, Japan
Honorary Professor Southwest Jiaotong University, China
3. Tentative Programme
** Keynote Slots Are Available **
** Oral Presentations Slots Are Also Available **
** Final Timings May Be Altered Based On The Final Number Of the Participants**
** Session Chairs & Co- Chairs Will Be Added Later In The Final Program**
8:00am to 9:00am Registrations
9:00am to 9:30am Introductory Session
Conference Chairman
Tamio Endo
Japan Advanced Chemicals, Atsugi, Japan
9:30am – 10:00am Title : Concept of Nanofiber Formation and Applicability Review of
Nanofiber Geotextiles in Geo-Environmental Field by Engineering Performance
Analysis
Jeon Han Yong, Inha University, South Korea
10:00am – 10:30am Title: Spin pump-probe technique and an example
Juayn Grace Lin, National Taiwan University, Taiwan
10:50am – 11-15am Title: Porous SnO2 nanoparticles based ion chromatographic
determinationof non-fluorescent antibiotic (chloramphenicol) in complex
samples.
Nadeem Muhammad, Wuchang University of Technology, China.
11:15am – 11:40am Title: 3D Origami Photonic Crystals Paper-like µPADs
Bingbing Gao, Southeast University, China
11:40am – 12:05pm Title: Oxide Based Resistive Switching Devices: A Promising Alternative for
Future Generation Non-volatile Memory
Souvik Kundu, Birla Institute of Technology & Science (BITS) Pilani, India
12:05pm – 12:25pm Title: Study of the angular momentum of light from plasmonic crystals
Hock Chun Ong, Chinese University of Hong Kong,Hong Kong
12:25pm – 12:50pm Title: Era of the Creative Minds- The Role of Nano-Materials to Achieve
Sustainable and Innovation Architecture
Imad Assali, Ahlia University, Bahrain
2:00pm – 2:25pm Title: Is 2D going to make organic electronics
Li Ping Lu, University of Exeter, UK
4. 2:25pm – 2:50pm Title: Dielectric tunable cubic pyrochlorebismuth magnesium niobate thin films
Libin Gao, University of Electronic Science and Technology of China,China
2:50pm – 3:15pm Title: NIR Imaging-Guided Fluorinated Polypeptide for Oxygen Self-
Sufficient Photodynamic Therapy
Pan Yuan, University of Science and Technology of China,China
3:15pm – 3:40pm Title: High Performance Complex Oxide Heterostructures for Nanoelectronic
Devices
Sean Li, University of New South Wales, Australia
3:40pm – 4:05pm Title: Structural and functional studies of Actin Interacting Protein 5, a novel
actin assembly regulator in Saccharomyces cerevisiae
Sun Jialin, Nanyang Technological University, Singapore
4:05pm – 4:30pm Title: Performance of Acacia Gum as a Novel Additive in Thin film Composite
Polyamide RO Membranes
Yehia Manawi, Hamad bin Khalifa University,Qatar
4:50pm - 5:15pm Title: Bioinspired wettability surfaces: from design to functions
Yongmei Zheng, Beihang University,China
5:15pm - 5:40pm Title: Definition of the atomic structure when deciphering Max Planck's
equation
Luiz Carlos de Almeida, UNIVERSIDADE DE BRASILIA, Brasil
5:40pm – 6:00pm Title: Micro/nanostructuredConductive Materialswith Tuning Wetting and
Electronic Propertiesfor ElectrocatalyticActivities
Ying Zhu, Beihang University, China
5. 9:00am – 9:30am Title: High accuracy elastic and piezoelectric properties predictions of AlScN
materials and their experimental validation from microacoustic resonators above
2GHz range
Ivoyl P. Koutsaroff, Qualcomm Germany RFFE GmbH
9:30am -10:00am Title: Nanofluids as an Advanced Heat Transfer Fluid
Muataz A. Hussien, Hamad Bin Khalifa University, Qatar
10:00am – 10:30am Title: ZnO-nanowires/Graphene Blended Liquid Crystal Switchable Device
Modulation
Kaushik Pal, Bharath University,India
10:50am – 11:15am Title: Active Materials and interfaces for stable perovskite solar cells
Antonio Abate, Helmholtz-Center Berlin for Materials and Energy,Germany
11:15am – 11:40am Title: Use of Washed Cement Kiln Dust as Nano-Material in Concrete
Hakeem Saeed, Al-Furat Al-Awsat Technical University, Iraq
11:40am – 12:05pm Title: Use of Washed Cement Kiln Dust as Nano-Material in Concrete
Luay Muhammed Ali Ismaeel, Al-Furat Al-Awsat Technical University, Iraq
12:05pm – 12:30pm Title: T-patterns and self-similarity over 11 orders of magnitude in time and
space: RNA, Cell Cities, naked apes and string-controlled mass-social humans.
Magnus S. Magnusson, University of Iceland, Iceland
12:30pm – 12:55 pm Title: APPLICATION OF NANO PARTICLES IN LEACHATE
TREATMENT-A CASE STUDY
Sampath Kumar M.C, B.M.S College of Engineering, India
2:00pm – 2:25pm : Title: Era of the Creative Minds- The Role of Nano-Materials to Achieve
Sustainable and Innovation Architecture
Afrin Afroz, Ahlia University, Bahrain
2:25pm – 2:50pm Title: INTERNET OF NANO THINGS
Santosh S Sonavane, Dr DY Patil Technical Campus, India
2:50pm – 3:15pm Title: Innovation Vision for GaN Power Transistors as a More-than-Moore
Technology
Eiichi YAMAGUCHI, Kyoto University,Japan
3:15pm – 3:40pm Title: The Impact of Nitrogen and Copper Doping on the Photocatalytic,
Photoelectrochemical and Hydrophilic Properties of TiO2 Thin Films
Corrado Garlisi, Khalifa University of Science and Technology, United Arab
Emirates
3:40pm – 4:05pm Title: Use of ZeMac® E400-based Solutions for Size Regulation of
Microcapsules, even down to the Nano range
Ashok M Adur, Vertellus LLC,USA
6. 4:05pm – 4:40pm Title: Can Nanoparticiles Stabilize microparticle suspension ??
You Im Chang, Tunghai University, Taiwan
4:50pm – 5:15pm Title: The comprehensive analysis of the adsorption process on BASOSIV
M050 metal-organic frameworks material
Mirosław Kwiatkowski, AGH University of Science and Technology, Poland
P1: Title: Characterization of hydrophobic surface grown by Self-assembled monolayer and ALD
process
Jong Wan Park , Hanyang University, South Korea
P2: Title: Effect of Sonication on the thermal conductivity of Nanofluids
K Venkatramanan, Sri Chandrasekharendra Saraswathi Viswa Mahavidyalaya, India
O1: Title: Effect of Sonication on the thermal conductivity of Nanofluids
K Venkatramanan, Sri Chandrasekharendra Saraswathi Viswa Mahavidyalaya, India
7. 9:00am – 9:25am Title: Spin-polarized STM study toward high temperature spintronic device
controlling superconductivity
Jhinhwan Lee, Korea Advanced Institute of Science and Technology, Korea
9:25am – 9:50am Title: ACTIVITY OF MYCO-SILVER NANOPARTICLES AGAINST
FUSARIUM OXYSPORUM
Romana Shahzadi, University of the Punjab, Pakistan
9:50am – 10:15am Title: Green and sustainable nanomaterials for Cultural Heritage preservation
applications
Robert Pullar, University of Aveiro,Portugal
10:15am – 10:40am Title: Bio-mechanical Energy Scavenging Triboelectric Nanogenerator as
Smart Punching Bag
Arunkumar Chandrasekhar, Gaurav Khandalwal, Kim Woo Joong,
KimSang Jae, Jeju National University,South Korea
11:00 am – 11:25am Title: Medium vacuum annealed long-lasting non-hydrogenated dark titanium
dioxide
LütfiyeYıldız Özer, Khalifa University of Science and Technology, United
Arab Emirates
11:25am – 11:50am Title: SELF-HEALING SMART ANTI-CORROSION COATINGS BASED
ON POLYMERS AND FUNCTIONALIZED CARBON PARTICLES
Ahmad Tabish, Khalifa University of Science and Technology, UAE
11:50am – 12:15pm Title: Nano-Scale Multilayer Coatings for Utmost Wear Reduction
Narguess Nemati, Yonsei University, South Korea
12:15pm – 12:40pm Title: Discovery of the Oscillations in the RPV Steel Radiation Embrittlement
Kinetics as an Indication of Nanostructure Self-Organizing
Krasikov, National Research Centre "Kurchatov Institute", Russia
12:40pm – 1:05pm Title: Quantum robot controls to machine learn and act as a behavioural,
emotional and intentional quantum synthetic intelligence
Olaf Cames, University of Liverpool,UK
2:10pm – 2:35pm Title: Electrochemically Exfoliated Black Phosphorous Nanosheets for
Nanoelectronic Device Applications
Mahendra S. Pawar, CSIR-National Chemical Laboratory
2:35pm - 3:00pm Title: Nanomolecular multitasking system in herbal medicine
Hnedry Izzac Elim, Pattimura University, Inodnesia
3:00pm – 3:25pm Title: Corrosion Performance of Tantalum Implanted with Argon and Nitrogen
Ions
A. H.Ramezani, Islamic Azad Univeristy, Iran
8. 3:25 pm - 3:50pm Title: Cancer testing for women begins at 21
Rahul Hajare, Indian Coucil of Medical Research, India
3:50pm - 04:15pm Title: Effects of BioquenchantsQuench-Severity on Microstructure and
Properties of Pure Commercial Aluminum
Odebiyi Oluwasegun Samuel, Kampala International University, Uganda
04:15pm - 04:40Pm Title: Geoexchanger System for Buildings Heating and Cooling
Abdeen Omer, Energy Research Institute (ERI),UK
04:40pm - 05:05pm Title: Fabrication and characterization of gelatin nanofibers dissolved in
concentrated Acid
Kooshina Koosha, Azad Islamic University, Iran
** Keynote Slots Are Available **
** Oral Presentations Slots Are Also Available **
** Final Timings May Be Altered Based On The Final Number Of the Participants**
** Session Chairs & Co- Chairs Will Be Added Later In The Final Program**