Perovskite is now considered as wonder material, which has revolutionized the photovoltaic field. The name perovskite was given in honour of Russian mineralogist L. A. Perovski and was first identified by Gustav Rose in 1839.
A perovskite solar cell is a type of solar cell which includes a perovskite structured compound, most commonly a hybrid organic-inorganic lead or tin halide-based material, as the light-harvesting active layer.
Perovskites-based Solar Cells: The challenge of material choice for p-i-n per...Akinola Oyedele
Perovskite-based PV have triggered widespread interest in the scientific community because these materials offer the attractive combinations of low cost and theoretically high efficiency. However, several challenges must be overcome for these relatively new PV materials. Among the many important challenges, one is the choice of materials to be used in thin film PV devices..
Based on fundamental principles of solar photovoltaics, this problem focuses on two aspects of the perovskite system:
1) Based on a planar p-i-n device structure, a potential list of p- and n-type charge collecting layers as well as the conductive contacts that could be used with a promising perovskite absorber material was identified, and a proper justification for the selection of each material in the device was given.
2) Three theoretical p-i-n type solar cells were made with the chosen materials and appropriate conductive contacts.
Perovskite Solar Cells
a short general overview presentation
hadi maghsoudi
device structure
crystal structure
preparation synthesis method
review papers
A perovskite solar cell is a type of solar cell which includes a perovskite structured compound, most commonly a hybrid organic-inorganic lead or tin halide-based material, as the light-harvesting active layer.
Perovskites-based Solar Cells: The challenge of material choice for p-i-n per...Akinola Oyedele
Perovskite-based PV have triggered widespread interest in the scientific community because these materials offer the attractive combinations of low cost and theoretically high efficiency. However, several challenges must be overcome for these relatively new PV materials. Among the many important challenges, one is the choice of materials to be used in thin film PV devices..
Based on fundamental principles of solar photovoltaics, this problem focuses on two aspects of the perovskite system:
1) Based on a planar p-i-n device structure, a potential list of p- and n-type charge collecting layers as well as the conductive contacts that could be used with a promising perovskite absorber material was identified, and a proper justification for the selection of each material in the device was given.
2) Three theoretical p-i-n type solar cells were made with the chosen materials and appropriate conductive contacts.
Perovskite Solar Cells
a short general overview presentation
hadi maghsoudi
device structure
crystal structure
preparation synthesis method
review papers
Progress in all inorganic perovskite solar cellMd Ataul Mamun
Since their first introduction in the research arena, the hybrid organic-inorganic perovskite photovoltaic cells have been showing frequent record breaking power conversion efficiencies (PCEs). Despite the rapid increase in PCE by engaging new perovskite materials as active layers as well as new fabrication techniques, their stability remains too poor to go for a mass production. Mainly the organic materials in the hybrid PSCs are responsible for this instability. Consequently, very recently, different approaches are taken to replace these organic components by inorganic ones to fabricate all-inorganic PSCs. Though these first-generation all-inorganic PSCs are yet to produce competitive PCEs like their counterparts, they have already demonstrated superb stability to be a propitious bidder for solar cell energy yielding. The state-of-the-art quantum dots based cells shown efficiency as high as 10.77% and intact stability for months.
An introduction of perovskite solar cellsalfachemistry
This article introduces the development, structure and work mechanism of perovskite solar cells. Visit https://www.alfa-chemistry.com/products/perovskite-solar-cells-139.htm for more information.
Organometal halide perovskite solar cells: Degradation and stabilityTaame Abraha Berhe
Organometal halide perovskite solar cells have evolved in an exponential manner in the two key areas of
efficiency and stability. The power conversion efficiency (PCE) reached 20.1% late last year. The key disquiet
was stability, which has been limiting practical application, but now the state of the art is promising, being
measured in thousands of hours. These improvements have been achieved through the application of
different materials, interfaces and device architecture optimizations, especially after the investigation of hole
conductor free mesoporous devices incorporating carbon electrodes, which promise stable, low cost
and easy device fabrication methods. However, this work is still far from complete.
Use of conventional sources of energy to generate electricity is
increasing rapidly due to growing energy demands. This is a
major cause of pollution as well and also is an environmental
concern for future. Considering this, there is lot of R&D going on in the field of alternate energy sources with recent advancements in technology. One of the most recent advancement is the perovskite solar technology in the photovoltaics industry. The power conversion efficiency of perovskite solar cells has been improved from 9.7 to 20.1% within 4 years which is the fastest advancement ever in the photovoltaic industry. Such a high photovoltaic performance can be attributed to optically high absorption characteristics of the hybrid lead perovskite materials. In this review, different perovskite materials are breifly discussed along with the fundamental details of the hybrid lead halide perovskite materials. The fabrication techniques, stability, device structure and the chemistry of the perovskite structure are also briefly described aiming for a better understanding of these materials and thus highly efficient perovskite solar cell devices. The main focus of this resarch is to understand possible methods to reduce toxicity due to lead and to improve Perovskite stability.
Advantages and problems of perovskite solar cellalfachemistry
This article mainly introduces the advantages and problems of perovskite solar cell. Visit https://www.alfa-chemistry.com/products/perovskite-solar-cells-139.htm for more information.
Use of conventional sources of energy to generate electricity is
increasing rapidly due to growing energy demands in every sector which is the major cause for pollution as well and also is an environmental concern for future. Considering this, there is lot of R&D going on in the field of alternate energy sources with recent advancements in technology. One of the recent advancement is the perovskite solar technology in the photovoltaics industry. The power conversion efficiency of perovskite solar cells has been improved from 9.7 to 20.1% within 4 years which is the fastest advancement ever in the photovoltaic industry. Such a high photovoltaic performance can be attributed to optically high absorption characteristics of the hybrid lead perovskite materials.
In this review, different perovskite materials are discussed along with the fundamental details of the hybrid lead halide perovskite materials. The fabrication techniques, stability, device structure and the chemistry of the perovskite structure are also described aiming for a better understanding of these materials and thus highly efficient perovskite solar cell devices. In addition some advantages and drawbacks are also discussed here to outline the prospects and challenges of using the perovskites in commercial PV devices.
Device simulation of perovskite solar cells with molybdenum disulfide as acti...journalBEEI
Organo-halide Perovskite Solar Cells (PSC) have been reported to achieve remarkably high power conversion efficiency (PCE). A thorough understanding of the role of each component in solar cells and their effect as a whole is still required for further improvement in PCE. In this paper, the effect of Molybdenum Disulfide (MoS2) in PSC with mesoporous structure configuration was analyzed using Solar Cell Capacitance Simulator (SCAPS). With the MoS2 layer which having two-fold function, acting as a protective layer, by preventing the formation of shunt contacts between perovskite and Au electrode, and as a hole transport material (HTM) from the perovskite to the Spiro-OMETAD. As simulated, PSC demonstrates a PCE, ŋ of 13.1%, along with stability compared to typical structure of PSC without MoS2 (Δ ŋ/ŋ=-9% vs. Δ ŋ/ŋ=-6%). The results pave the way towards the implementation of MoS2 as a material able to boost shelf life which very useful for new material choice and optimization of HTMs
Research proposal on organic-inorganic halide perovskite light harvesting mat...Rajan K. Singh
Organic-Inorganic perovskite materials has many applications in the field of opto-electronics such as photo-voltaic cells, LEDs, sensors, memory devices etc. due to its excellent optical and electrical properties. Presence of Pb in such type of perovskite is the biggest challenge for researchers.
This presentation summarizes history and recent development of perovskite solar cells. If you have any questions or comments, you can reach me at agassifeng@gmail.com
Different Generation Solar Cells
CIGS and CZTS Based Technology
Ink Based Technology
CIGS Device Structure
Making more efficient solar cells
Developing thin film technologies using alternative less costly materials and methods
Incorporate innovative cheaper deposition methods such as electrodeposition and printing technology
Progress in all inorganic perovskite solar cellMd Ataul Mamun
Since their first introduction in the research arena, the hybrid organic-inorganic perovskite photovoltaic cells have been showing frequent record breaking power conversion efficiencies (PCEs). Despite the rapid increase in PCE by engaging new perovskite materials as active layers as well as new fabrication techniques, their stability remains too poor to go for a mass production. Mainly the organic materials in the hybrid PSCs are responsible for this instability. Consequently, very recently, different approaches are taken to replace these organic components by inorganic ones to fabricate all-inorganic PSCs. Though these first-generation all-inorganic PSCs are yet to produce competitive PCEs like their counterparts, they have already demonstrated superb stability to be a propitious bidder for solar cell energy yielding. The state-of-the-art quantum dots based cells shown efficiency as high as 10.77% and intact stability for months.
An introduction of perovskite solar cellsalfachemistry
This article introduces the development, structure and work mechanism of perovskite solar cells. Visit https://www.alfa-chemistry.com/products/perovskite-solar-cells-139.htm for more information.
Organometal halide perovskite solar cells: Degradation and stabilityTaame Abraha Berhe
Organometal halide perovskite solar cells have evolved in an exponential manner in the two key areas of
efficiency and stability. The power conversion efficiency (PCE) reached 20.1% late last year. The key disquiet
was stability, which has been limiting practical application, but now the state of the art is promising, being
measured in thousands of hours. These improvements have been achieved through the application of
different materials, interfaces and device architecture optimizations, especially after the investigation of hole
conductor free mesoporous devices incorporating carbon electrodes, which promise stable, low cost
and easy device fabrication methods. However, this work is still far from complete.
Use of conventional sources of energy to generate electricity is
increasing rapidly due to growing energy demands. This is a
major cause of pollution as well and also is an environmental
concern for future. Considering this, there is lot of R&D going on in the field of alternate energy sources with recent advancements in technology. One of the most recent advancement is the perovskite solar technology in the photovoltaics industry. The power conversion efficiency of perovskite solar cells has been improved from 9.7 to 20.1% within 4 years which is the fastest advancement ever in the photovoltaic industry. Such a high photovoltaic performance can be attributed to optically high absorption characteristics of the hybrid lead perovskite materials. In this review, different perovskite materials are breifly discussed along with the fundamental details of the hybrid lead halide perovskite materials. The fabrication techniques, stability, device structure and the chemistry of the perovskite structure are also briefly described aiming for a better understanding of these materials and thus highly efficient perovskite solar cell devices. The main focus of this resarch is to understand possible methods to reduce toxicity due to lead and to improve Perovskite stability.
Advantages and problems of perovskite solar cellalfachemistry
This article mainly introduces the advantages and problems of perovskite solar cell. Visit https://www.alfa-chemistry.com/products/perovskite-solar-cells-139.htm for more information.
Use of conventional sources of energy to generate electricity is
increasing rapidly due to growing energy demands in every sector which is the major cause for pollution as well and also is an environmental concern for future. Considering this, there is lot of R&D going on in the field of alternate energy sources with recent advancements in technology. One of the recent advancement is the perovskite solar technology in the photovoltaics industry. The power conversion efficiency of perovskite solar cells has been improved from 9.7 to 20.1% within 4 years which is the fastest advancement ever in the photovoltaic industry. Such a high photovoltaic performance can be attributed to optically high absorption characteristics of the hybrid lead perovskite materials.
In this review, different perovskite materials are discussed along with the fundamental details of the hybrid lead halide perovskite materials. The fabrication techniques, stability, device structure and the chemistry of the perovskite structure are also described aiming for a better understanding of these materials and thus highly efficient perovskite solar cell devices. In addition some advantages and drawbacks are also discussed here to outline the prospects and challenges of using the perovskites in commercial PV devices.
Device simulation of perovskite solar cells with molybdenum disulfide as acti...journalBEEI
Organo-halide Perovskite Solar Cells (PSC) have been reported to achieve remarkably high power conversion efficiency (PCE). A thorough understanding of the role of each component in solar cells and their effect as a whole is still required for further improvement in PCE. In this paper, the effect of Molybdenum Disulfide (MoS2) in PSC with mesoporous structure configuration was analyzed using Solar Cell Capacitance Simulator (SCAPS). With the MoS2 layer which having two-fold function, acting as a protective layer, by preventing the formation of shunt contacts between perovskite and Au electrode, and as a hole transport material (HTM) from the perovskite to the Spiro-OMETAD. As simulated, PSC demonstrates a PCE, ŋ of 13.1%, along with stability compared to typical structure of PSC without MoS2 (Δ ŋ/ŋ=-9% vs. Δ ŋ/ŋ=-6%). The results pave the way towards the implementation of MoS2 as a material able to boost shelf life which very useful for new material choice and optimization of HTMs
Research proposal on organic-inorganic halide perovskite light harvesting mat...Rajan K. Singh
Organic-Inorganic perovskite materials has many applications in the field of opto-electronics such as photo-voltaic cells, LEDs, sensors, memory devices etc. due to its excellent optical and electrical properties. Presence of Pb in such type of perovskite is the biggest challenge for researchers.
This presentation summarizes history and recent development of perovskite solar cells. If you have any questions or comments, you can reach me at agassifeng@gmail.com
Different Generation Solar Cells
CIGS and CZTS Based Technology
Ink Based Technology
CIGS Device Structure
Making more efficient solar cells
Developing thin film technologies using alternative less costly materials and methods
Incorporate innovative cheaper deposition methods such as electrodeposition and printing technology
Module PHY6002 Inorganic Semiconductor Nanostructures
Lectures 7, 8, 9 and 10
1
Lecture 7 – The fabrication of semiconductor
nanostructures I
Introduction
In this lecture we will look at the techniques used to fabricate semiconductor
nanostructures. The well-established epitaxial methods used to produce
quantum wells will be described. The main techniques applied to produce
quantum wires and quantum dots will be discussed, with a comparison of their
relative advantages and disadvantages. In the next lecture we will look in
detail at the most successful technique used to produce quantum dots, self-
organisation.
Epitaxial techniques
There are two well established epitaxial growth techniques used to produce
high quality quantum wells: molecular beam epitaxy (MBE) and metal organic
vapour phase epitaxy (MOVPE).
The following figure shows the main components of an MBE reactor.
The reactor consists of an ultra-high vacuum chamber with a number of
effusion cells, each containing a different element. Each cell has a mechanical
shutter placed in front of its opening. In operation the cells are heated to a
temperature where the elements start to evaporate, producing a beam of
atoms which leave the cells. These beams are aimed at a heated substrate
which consists of a thin wafer of a suitable bulk semiconductor. The incident
beams combine at the surface of the substrate and a semiconductor is
deposited atomic-layer by atomic-layer. The substrate is rotated to ensure
even growth over its surface. By opening the mechanical shutters in front of
certain cells it is possible to control which semiconductor is deposited. For
example opening the shutters in front of the Ga and As cells results in the
growth of GaAs. Shutting the Ga cell and opening the Al cell switches to the
growth of AlAs. Because the shutters can be operated very rapidly in
comparison to the rate at which material is deposited, it is possible to grow
An MBE reactor
Module PHY6002 Inorganic Semiconductor Nanostructures
Lectures 7, 8, 9 and 10
2
very thin layers with very sharp interfaces between layers. The following figure
shows a transmission electron microscope image of a quantum well sample
containing five wells of different thicknesses. The thinnest well has a
thickness of only 1nm. Other cells in the MBE reactor may contain elements
used to dope the semiconductor and it is possible to monitor the growth as it
proceeds by observing the electron diffraction pattern produced by the
surface.
The second epitaxial growth technique is metal organic vapour phase epitaxy
(MOVPE). In this technique the required elements are carried, as a
component of gaseous compounds, to a suitable chamber where they mix as
the gases flow over the surface of a heated substrate. The compounds
breakdown to deposit the semiconductor on the surface of the substrate with
the remaining waste gases being removed from the chamber. Valves in the
gas l ...
What is(are) the main process recipe factor(s) of the PECVD process ca.docxSUKHI5
What is(are) the main process recipe factor(s) of the PECVD process can be adjusted to change the antireflection film
Solution
The present work reports on progress in the design of modular UHV cluster tool multichamber systems. A wide range of processes has been implemented in the Deposition Process Chambers (DPC\'s), including rf-PECVD, vhf-PECVD, ECR-PECVD and HWCVD. A wide range of intrinsic and doped amorphous and microcrystalline silicon and silicon alloy materials have been produced and have been used in the fabrication of several types of electronic devices such as solar cells, Light Emitting Devices (LED\'s), Thin Film Transistors (TFT\'s), etc. using multichamber systems at several laboratories worldwide.
different deposition technologies, such as ECR and HWCVD. Optionally high temperature capability
(1000oC) is available.The multichamber system is controlled entirelyby PC, which allows stable and repeatable control of all deposition parameters and make thesyste m particularly suitable for the deposition of
multilayer devices.
3.Experimental results State of the art amorphous and microcrystalline semiconducting materials have been deposited usingthe multichamber systems installed by Elettrorava, research programs have been carried out on several types of devices.The extensive solar cell research program carried out at Utrecht University and Technical University Delft has allowed to deposit devices with efficiencies in excess of 10% (1). More recently the addition of HWCVD chambers on the multichamber system has allowed to optimize deposition of amorphous and polycrystalline silicon thin films by HWCVD and to produce highly stable pin devices. Extensive research programs have been carried out on the system installed at the IMM-CNR laboratory in Bologna and have led to scientific results reported in many papers.
The main topics investigated and the main results obtained are summarized here.Deposition of silicon carbide alloys using rf PECVD : the optoelectrical properties of amorphous silicon carbide have been optimized for films deposited in gas mixtures of silane and methane/acetylene both undiluted and with the addition of hydrogen (hydrogen diluted gas mixtures).
It has been shown that the energy gap can be varied in a wide range and that hydrogen dilutionimproves theoptoelectrical properties for films with high values of the energy gap (2, 3, 4, 5, 6, 7, 8,9, 10, 11, 12, 14, 17, 19, 20, 21, 22, 25, 26, 27, 29, 33).
Deposition of silicon nitride alloys using rf PE
CVD : the optoelectrical properties of amorphoussilicon nitride have been optimized for films deposited in gas mixtures of silane and ammonia bothundiluted and with the addition of hydrogen (hydrogen diluted gas mixtures). It has been shown thatthe energy gap can be varied in a very wide range and thathydrogen dilution improves theoptoelectrical properties for films with highvalues of the energy gap (15, 16, 24, 28, 30, 34).
.
Similar to Perovskite solar cells: new paradigm in thin film PV (20)
Jubail 3A desalination plant – Saudi ArabiaAbengoa
The Jubail 3A desalination plant that Abengoa is building in Saudi Arabia will be one of the largest with reverse osmosis technology in the country and it will have the capacity to supply drinking water to three million people.
La planta desaladora de Jubail, en construcción por Abengoa en consorcio con la empresa de ingeniería y construcción SEPCOIII, será una de las plantas desaladoras con tecnología de ósmosis inversa más grande de Arabia Saudí.
The desalination plant in Barka, constructed by Abengoa, has the capacity to desalinate 45,000 m3 of water per day through reverse osmosis technology, and is located in the Gulf of Oman, in the north-east of the country.
La planta desaladora de Barka, construida por Abengoa, cuenta con capacidad para desalar 45.000 m3 de agua al día a través de tecnología de ósmosis inversa y se encuentra situada en el Golfo de Omán, al noreste del país.
Khi Solar One is the first solar thermal tower plant in Africa. With a capacity of 50 MW, it is located in Upington, South Africa and it It will contribute to the country´s goals of introducing up to 17,800 MW of renewable energy by 2030, and reducing its dependence on oil and natural gas.
Khi Solar One es la primera planta termosolar de torre de África. Con una capacidad de 50 MW, se ubica en Upington, Sudáfrica, y contribuirá a la meta del país de alcanzar 17.800 MW de energía renovable en 2030. Además, reducirá su dependencia del petróleo y del gas natural.
Planta desaladora de 250.000 metros cúbicos al día que garantizará el suministro de agua de las ciudades de La Meca, Jeddah, Taif y Al-Baha en Arabia Saudí.
Abengoa is building in Chile, in consortium with Acciona, the first solar thermal tower plant in Latin America. Located in the Atacama Desert, it will have a capacity of 110 MW and prevent the emission into the atmosphere of 630,000 tons of C02 per year. In this same complex, Abengoa has already built a 100 MW photovoltaic plant.
Abengoa está construyendo en Chile, en consorcio con Acciona, la que será la primera planta termosolar de torre Latinoamérica. Ubicada en el desierto de Atacama, tendrá una capacidad de 110 MW y evitará la emisión a la atmósfera de 630.000 toneladas de C02 al año. En este mismo complejo, Abengoa ha ejecutado en solitario una planta fotovoltaica de 100 MW.
The Scarabeus project, funded by the European Commission, seeks to reduce carbon emissions in solar thermal plants by introducing novel supercritical CO2 cycles in solar thermal plants. Abengoa participates in the project along with eight other partners, including universities and companies, from six different countries.
Abengoa dispone de una dilatada experiencia en el tratamiento de aguas, tanto en potabilización como en tratamiento y reutilización de aguas residuales de origen urbano, incluyendo la digestión y valorización de los fangos. Conoce todas nuestras soluciones en nuestro folleto.
Abengoa counts on its own solar thermal technology and is a world leader in the construction of this type of plant. Solar thermal tower technology (STET) allows the production of electricity by concentrating solar power, captured by a field of heliostats, onto a receiver point located at the top of a tower.
Abengoa cuenta con tecnología termosolar propia y es líder mundial en la construcción de este tipo de plantas. En concreto, la tecnología termosoalr de torre permite la producción de electricidad mediante la concentración de energía solar, captada a través d eun capo de heliostatos, en un receptor situado en la parte superior de una torre.
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
6th International Conference on Machine Learning & Applications (CMLA 2024)ClaraZara1
6th International Conference on Machine Learning & Applications (CMLA 2024) will provide an excellent international forum for sharing knowledge and results in theory, methodology and applications of on Machine Learning & Applications.
ACEP Magazine edition 4th launched on 05.06.2024Rahul
This document provides information about the third edition of the magazine "Sthapatya" published by the Association of Civil Engineers (Practicing) Aurangabad. It includes messages from current and past presidents of ACEP, memories and photos from past ACEP events, information on life time achievement awards given by ACEP, and a technical article on concrete maintenance, repairs and strengthening. The document highlights activities of ACEP and provides a technical educational article for members.
Water billing management system project report.pdfKamal Acharya
Our project entitled “Water Billing Management System” aims is to generate Water bill with all the charges and penalty. Manual system that is employed is extremely laborious and quite inadequate. It only makes the process more difficult and hard.
The aim of our project is to develop a system that is meant to partially computerize the work performed in the Water Board like generating monthly Water bill, record of consuming unit of water, store record of the customer and previous unpaid record.
We used HTML/PHP as front end and MYSQL as back end for developing our project. HTML is primarily a visual design environment. We can create a android application by designing the form and that make up the user interface. Adding android application code to the form and the objects such as buttons and text boxes on them and adding any required support code in additional modular.
MySQL is free open source database that facilitates the effective management of the databases by connecting them to the software. It is a stable ,reliable and the powerful solution with the advanced features and advantages which are as follows: Data Security.MySQL is free open source database that facilitates the effective management of the databases by connecting them to the software.
KuberTENes Birthday Bash Guadalajara - K8sGPT first impressionsVictor Morales
K8sGPT is a tool that analyzes and diagnoses Kubernetes clusters. This presentation was used to share the requirements and dependencies to deploy K8sGPT in a local environment.
Low power architecture of logic gates using adiabatic techniquesnooriasukmaningtyas
The growing significance of portable systems to limit power consumption in ultra-large-scale-integration chips of very high density, has recently led to rapid and inventive progresses in low-power design. The most effective technique is adiabatic logic circuit design in energy-efficient hardware. This paper presents two adiabatic approaches for the design of low power circuits, modified positive feedback adiabatic logic (modified PFAL) and the other is direct current diode based positive feedback adiabatic logic (DC-DB PFAL). Logic gates are the preliminary components in any digital circuit design. By improving the performance of basic gates, one can improvise the whole system performance. In this paper proposed circuit design of the low power architecture of OR/NOR, AND/NAND, and XOR/XNOR gates are presented using the said approaches and their results are analyzed for powerdissipation, delay, power-delay-product and rise time and compared with the other adiabatic techniques along with the conventional complementary metal oxide semiconductor (CMOS) designs reported in the literature. It has been found that the designs with DC-DB PFAL technique outperform with the percentage improvement of 65% for NOR gate and 7% for NAND gate and 34% for XNOR gate over the modified PFAL techniques at 10 MHz respectively.
We have compiled the most important slides from each speaker's presentation. This year’s compilation, available for free, captures the key insights and contributions shared during the DfMAy 2024 conference.
A review on techniques and modelling methodologies used for checking electrom...nooriasukmaningtyas
The proper function of the integrated circuit (IC) in an inhibiting electromagnetic environment has always been a serious concern throughout the decades of revolution in the world of electronics, from disjunct devices to today’s integrated circuit technology, where billions of transistors are combined on a single chip. The automotive industry and smart vehicles in particular, are confronting design issues such as being prone to electromagnetic interference (EMI). Electronic control devices calculate incorrect outputs because of EMI and sensors give misleading values which can prove fatal in case of automotives. In this paper, the authors have non exhaustively tried to review research work concerned with the investigation of EMI in ICs and prediction of this EMI using various modelling methodologies and measurement setups.
Online aptitude test management system project report.pdfKamal Acharya
The purpose of on-line aptitude test system is to take online test in an efficient manner and no time wasting for checking the paper. The main objective of on-line aptitude test system is to efficiently evaluate the candidate thoroughly through a fully automated system that not only saves lot of time but also gives fast results. For students they give papers according to their convenience and time and there is no need of using extra thing like paper, pen etc. This can be used in educational institutions as well as in corporate world. Can be used anywhere any time as it is a web based application (user Location doesn’t matter). No restriction that examiner has to be present when the candidate takes the test.
Every time when lecturers/professors need to conduct examinations they have to sit down think about the questions and then create a whole new set of questions for each and every exam. In some cases the professor may want to give an open book online exam that is the student can take the exam any time anywhere, but the student might have to answer the questions in a limited time period. The professor may want to change the sequence of questions for every student. The problem that a student has is whenever a date for the exam is declared the student has to take it and there is no way he can take it at some other time. This project will create an interface for the examiner to create and store questions in a repository. It will also create an interface for the student to take examinations at his convenience and the questions and/or exams may be timed. Thereby creating an application which can be used by examiners and examinee’s simultaneously.
Examination System is very useful for Teachers/Professors. As in the teaching profession, you are responsible for writing question papers. In the conventional method, you write the question paper on paper, keep question papers separate from answers and all this information you have to keep in a locker to avoid unauthorized access. Using the Examination System you can create a question paper and everything will be written to a single exam file in encrypted format. You can set the General and Administrator password to avoid unauthorized access to your question paper. Every time you start the examination, the program shuffles all the questions and selects them randomly from the database, which reduces the chances of memorizing the questions.
6. 6
Deposition of layers: process identification
Process for lab cells
Identification of
process for module
fabrication
*Processing instrument from Coatema
9. 9
Pilot processes: deposition on large areas
Current Status
Layer Alternative Process Status
FTO Sputtering Ok
TiO2 Compact
Sputtering Ok
Spray OK
TiO2 Mesoporous
Spray Ok
Slot-Dye Ok
Perovskites
Planar
VTD On going
Electro-spray On going
Mesoporous
Dip-coating Next
Slot-Die Next
HTM
Doctor-blade Next
Electro-spray Next
Slot-Die Next
Contact Ag Screen Printing Next
10. Optimum barrier layer for encapsulation
• Low water vapor & oxygen transport rate - the key parameter [g/(m2day]
• High optical transmissivity
• UV stability & cost effectiveness
• Mechanical robustness
• Flexibility but with glass like properties
10
Packaging
Water vapor transmission rate (g m-2 d-1)
Rechargeable
Alkali ion Batteries
Quantum
Dots
Inorganic PV
Display /
Lighting Application
New
generation PV
11. 11
Current PV market
• In the initial phase, perovskite solar cells is targeted to capture thin film PV market
• Perovskite solar cells are very competitive to CdTe (currently which has lowest LCOE)
• NREL calculated cost of ownership for perovskite is <0.34 $/Wp, as compared to 0.45 $/Wp
for CdTe.
• Utilizes low quantity of earth abundant materials and has simple processing requirements
*Sources: World wide web