Is there some real value that solution processing can bring to the OLED sector? Or are the firms still dreaming of solution-processed OLEDs merely nostalgic or delusional?
This document discusses OLED (Organic Light Emitting Diode) technology. It provides a definition of OLEDs as LEDs with an electroluminescent layer made of organic compounds. The history and development of OLEDs from the 1950s to today is covered. The architecture and types (passive vs active) of OLED displays are described. Current research focuses on improving efficiency and lifespan while reducing costs. Applications include TVs, phones, keyboards, lights, and more. Advantages over other technologies include thinner screens, wider viewing angles, and less energy use. Future uses may include flexible, transparent, and bendable displays.
These slides use concepts from my (Jeff Funk) course entitled analyzing hi-tech opportunities to analyze how the economic feasibility of flexible OLED displays are becoming better through newer and thinner materials, roll-to roll printing, and larger production equipment. Thinner materials along with new materials increase flexibility, reduce moisture permeation and thus increase the lifetime, and reduce cost. Flexibility enables displays that conform to complex shaped things such as wrists and backpacks and that can be fit inside pens and other tubes. Along with other technologies, this further facilitates information access.
OLED technology uses organic light emitting diodes to create brighter, thinner, and more flexible displays. An OLED is composed of thin films of organic molecules that emit light when electricity is applied. The first OLED was developed in 1987, and since then OLEDs have been used in various displays. OLEDs offer advantages over LCDs like higher contrast, better viewing angles, and less power consumption. Major applications of OLEDs include televisions, smartphones, and laptops.
hey guyz this is the presentation iv made in my last year of engineering and got very nice feedbacks. my topic was oled(organic light emitting diodes).. iv given all its highlited informations with pictures
Electrochromic Glass and Film Markets 2016-2023 Slidesn-tech Research
Slides created from the n-tech Research report, Electrochromic Glass and Film Markets 2016-2023 issued in Q4 2015. The firm predicts that the electrochromic glass market will become a $3 billion market by 2020, sSee more at: http://ntechresearch.com/news
Slides created from the n-tech Research report, Markets for Metamaterials 2016-2023 that the firm issued on Q1 of 2016. In the report the firm stated that that the market for metamaterials used for communications, medicine, defense, aerospace, sensing and other applications will exceed $1.0 billion by 2021 and reach $4.1 billion by 2025. - See more at: http://ntechresearch.com/news/n-tech-research-predicts-market-for-metamaterials-will-reach-over-1.0-by-20
Smart Structures in the Construction Sector: Evolving into a Major Market Opp...n-tech Research
The document summarizes the evolving market for smart structures in the construction industry. It defines smart structures as systems that incorporate sensing and actuation to perform intelligent actions. Two major applications are identified: safety monitoring and energy efficiency. For safety, structural health monitoring uses smart materials and sensors to monitor loads and detect damage. This expands the existing market for seismic protection. Energy efficient smart skins that could self-clean or generate energy are in early development. The market is currently focused on prestige buildings but may expand to industrial, commercial and residential buildings if costs can be justified. Retrofitting existing structures also represents potential future growth.
This document discusses OLED (Organic Light Emitting Diode) technology. It provides a definition of OLEDs as LEDs with an electroluminescent layer made of organic compounds. The history and development of OLEDs from the 1950s to today is covered. The architecture and types (passive vs active) of OLED displays are described. Current research focuses on improving efficiency and lifespan while reducing costs. Applications include TVs, phones, keyboards, lights, and more. Advantages over other technologies include thinner screens, wider viewing angles, and less energy use. Future uses may include flexible, transparent, and bendable displays.
These slides use concepts from my (Jeff Funk) course entitled analyzing hi-tech opportunities to analyze how the economic feasibility of flexible OLED displays are becoming better through newer and thinner materials, roll-to roll printing, and larger production equipment. Thinner materials along with new materials increase flexibility, reduce moisture permeation and thus increase the lifetime, and reduce cost. Flexibility enables displays that conform to complex shaped things such as wrists and backpacks and that can be fit inside pens and other tubes. Along with other technologies, this further facilitates information access.
OLED technology uses organic light emitting diodes to create brighter, thinner, and more flexible displays. An OLED is composed of thin films of organic molecules that emit light when electricity is applied. The first OLED was developed in 1987, and since then OLEDs have been used in various displays. OLEDs offer advantages over LCDs like higher contrast, better viewing angles, and less power consumption. Major applications of OLEDs include televisions, smartphones, and laptops.
hey guyz this is the presentation iv made in my last year of engineering and got very nice feedbacks. my topic was oled(organic light emitting diodes).. iv given all its highlited informations with pictures
Electrochromic Glass and Film Markets 2016-2023 Slidesn-tech Research
Slides created from the n-tech Research report, Electrochromic Glass and Film Markets 2016-2023 issued in Q4 2015. The firm predicts that the electrochromic glass market will become a $3 billion market by 2020, sSee more at: http://ntechresearch.com/news
Slides created from the n-tech Research report, Markets for Metamaterials 2016-2023 that the firm issued on Q1 of 2016. In the report the firm stated that that the market for metamaterials used for communications, medicine, defense, aerospace, sensing and other applications will exceed $1.0 billion by 2021 and reach $4.1 billion by 2025. - See more at: http://ntechresearch.com/news/n-tech-research-predicts-market-for-metamaterials-will-reach-over-1.0-by-20
Smart Structures in the Construction Sector: Evolving into a Major Market Opp...n-tech Research
The document summarizes the evolving market for smart structures in the construction industry. It defines smart structures as systems that incorporate sensing and actuation to perform intelligent actions. Two major applications are identified: safety monitoring and energy efficiency. For safety, structural health monitoring uses smart materials and sensors to monitor loads and detect damage. This expands the existing market for seismic protection. Energy efficient smart skins that could self-clean or generate energy are in early development. The market is currently focused on prestige buildings but may expand to industrial, commercial and residential buildings if costs can be justified. Retrofitting existing structures also represents potential future growth.
White Paper: Smart Materials in the Construction Sectorn-tech Research
In this paper we discuss the market potential for smart materials in the construction space. Various smart materials, coatings and surfaces are addressed along with market sizes
Evaluating Opportunities for Solar PV in Mobile Electronic Devicesn-tech Research
PV technology has been paired with small electronic devices for decades, most notably in calculators. What's new here is the emergence of alternative PV technologies -- organic PV (OPV), dye-sensitized (DSC), and thin-film variants such as CIGS -- promising not only those specific capabilities, but also potentially produced in large volumes using low-cost manufacturing processes. Many within these PV sectors are developing the technology with an eye toward building-integrated PV (BIPV), but strict performance and lifetime requirements mean this is still some ways off. Consumer electronics, on the other hand, presents an alluring easier target with opportunities right now, and potentially massive addressable volumes.
The Evolving Building Integrated Photovoltaics Marketn-tech Research
n-tech Research has witnessed the progression of technologies and products and suppliers into—and more often, out of—the BIPV market over the past six years. This market, as we see it now, is in a transition and must refine its messaging to an end-user base with shifting priorities.
More than ever, BIPV needs to be sold—and technologically developed—with an emphasis on aesthetics and what can be called its "smart" capabilities, vs. simply energy generation.
While energy efficiency is – and will remain – an important factor shaping sales of BIPV products. This means that in the future there will be more dimensions along which BIPV firms can compete. These, for example, would include color, transparency and substrate conformability.
We predict an acceleration toward truly integrated BIPV products within a building envelope, and a reshaping of manufacturing strategies and supply chains to develop and deliver these products.
Smart Coatings Markets, An Emerging Opportunityn-tech Research
The report analyzes the markets for smart coatings in key sectors of the economy including construction, energy, automotive, healthcare, consumer electronics, textiles and the military. Coverage includes relatively mature smart coatings (e.g., self-cleaning coatings), along with latest materials such as smart multi-layer coatings. The report provides an eight-year forecast in value ($ millions) terms for the overall smart coatings market. - See more at: http://ntechresearch.com/market_reports/smart-coatings-markets-an-emerging-opportunity
This report analyzes the smart coatings market from 2015-2022. It covers technical developments in self-cleaning, self-healing, and other smart coating technologies. It also provides 8-year forecasts for smart coating revenues broken down by industry and application. The forecasts predict rapid revenue growth as smart coatings are increasingly used in construction, energy, transportation, consumer electronics, and other sectors where functionality is prioritized over price. The report is intended to guide firms in the coatings industry and related sectors regarding investment opportunities in smart materials.
Organic Photovoltaic Markets 2015-2022 Sample Chaptern-tech Research
This document provides a research report on organic photovoltaic (OPV) markets from 2015 to 2022. It discusses the technology trends in OPV including improving efficiency levels above 12% in labs and 5% in pilot production. It also examines the product strategies of over a dozen companies developing OPV technologies. Finally, it provides eight-year forecasts for OPV materials, devices, and their various application markets, including building-integrated photovoltaics and off-grid solar charging.
Smart Mirrors Technologies and Markets, 2015-2022n-tech Research
In this report n-tech Research updates our evaluation of the various types of technologies that companies are using to make mirrors "smart," while noting how different sectors may have different value propositions. We also explore the various market drivers for "smart mirrors" the four key end-market sectors: automotive, home/consumer, retail/commercial, and medical/healthcare. We provide eight-year forecasts for the various "smart" technologies in each sector, both in volumes and in value terms.
This report is designed to provide guidance for marketing, business, and technology executives from not only the traditional "mirror" sector (i.e. glass and coatings), but also from the various electronics sectors providing these "smart" functionalities, particularly displays, touch sensors, and consumer electronics. We also believe this report will be valuable to evaluators in these end-markets as they evaluate how such "smart mirrors" are evolving to meet their unique application requirements.
- See more at: http://ntechresearch.com/market_reports/smart-mirrors-technologies-and-markets-2015-2022
Slides from NanoMarkets webinar on Smart Coatings Feb 2015n-tech Research
These are the slides from the NanoMarkets webinan on Smart Coatings that was held on February 11, 2015. Findings from the firm's recently released report were presented.
Smart Glasses and the Evolution of Human-Computing Interfacesn-tech Research
Within the emerging category of wearable computing, arguably the most characteristic product to emerge is "smart glasses" which mesh the communications capabilities of smartphones with additional visual and other sensual enhancements, including augmented reality. The primary selling feature of smart glasses is their ability to display video, navigation, messaging, augmented reality (AR) applications, and games on a large virtual screen, all completely hands-free. The current poster child for smart glasses is Google’s "Glass" product, but there are more than 20 firms offering smart glasses or planning to do so.
The hands-free nature of smart glasses opens up new possibilities for human-computer interfaces (HCI), drawing from smart phones as well as interfaces developed in other contexts (e.g. virtual reality). Early smart glasses models are leaning on mature and low-cost technologies with notable influence from smartphones; however we see a gradual trend for smart glasses (and other wearable computing devices) to be driven by more natural interface controls, once these technologies have time to mature as well -- and they're getting remarkably close.
Power Sources for the Internet-of-Things: Markets and Strategiesn-tech Research
NanoMarkets believes that the deployments of sensors and processors for the Internet-of-Things (IoT) are creating huge new opportunities for manufacturers of power source devices. Because of IoT, power devices such as thin-film and printed batteries, energy harvesting modules, small flexible photovoltaics panels and thermoelectric sources, which have enjoyed marginal revenues up to now, may begin generating hundreds of millions of dollars in annual revenues.
However, suppliers of IoT power sources, as well as the semiconductor industry more generally face significant uncertainties in the IoT space. Not only is future of the IoT itself unclear, but also how the IoT “power infrastructure” will shape up technologically is a great unknown.
The objective of this report is to identify where the money will be made and lost in the emergent IoT power source business. It begins with an assessment of the power requirements of the various devices that NanoMarkets believes will form the “things” in the IoT. These include sensor networks, MCUs/MPUs and tagging devices, for example. The report continues by considering how established technologies such as batteries will adapt to new IoT opportunities and whether emerging technologies such as energy harvesting and thermoelectric power sources will find their first big markets as the result of IoT.
The report explores the opportunities for all industry sectors that will be impacted by the development of new power sources for the IoT. In particular we examine how leading battery companies, chipmakers, OEMs and others are preparing for the business opportunities in the IoT power source space. The report also discusses the strategies of eight firms that NanoMarkets believes will shape the market for power sources for the IoT over the next decade.
We believe that this report will be essential reading for business development and marketing executives in the battery, energy harvesting, RFID, sensors, photovoltaics and semiconductor industries, as well as the investment community. In addition to providing a thorough analysis of the IoT power source markets, this report also provides detailed eight-year forecasts of power sources for the IoT in both volume and value terms and with break outs by power source types.
- See more at: http://nanomarkets.net/market_reports/report/power-sources-for-the-internet-of-things-markets-and-strategies
Translating CIGS Efficiency Improvements Into Market Opportunityn-tech Research
NanoMarkets sees broader adoption of both BIPV and CIGS hinging on a trade-off between cost and reliability, with lower-cost encapsulations emerging that offer minimal performance. We also note that transparency of the barrier also is very important, since any light obstruction directly reduces the performance of the PV cells within; we expect competition on this front as well.
The multimillion-dollar question about BIPV is this: what will convince customers -- architects, builders, and homeowners, even construction materials suppliers and financing entities -- to justify the extra expense in a BIPV application? Companies and organizations continue to improve and innovate around the technologies involve with building-integrated photovoltaics (PV), from new cell designs and technologies such as PERC, metal wrap-through, and "smart wire" structures, to new and improved materials from thin-film CIGS to dye-sensitized and organic PV, and the latest solar PV wonder-material perovskite. Standardization will help reduce the complexity (and thus costs) of BIPV installations; this already has made some headway in the U.K. for products such as roof tiles and shingles. These are needed progress in performance and cost reductions, but they're not enough.
NanoMarkets believes the answer lies in other factors to consider
Information provided in this presentation are taken from NanoMarkets' report:-"Smart Glass Opportunities in the Automotive Industry—2014." It makes an assessment of smart glass technology for automotive applications. It also highlights the key trends that are likely to shape the revenue potential of smart automotive sector in the coming years.
As niche market image of BIPV is changing, this presentation talks about various opportunities that exists for both PV firms and glass firms in this space. It talks about those factors that are likely to influence BIPV markets in the coming years. Also it discusses as how attempts are made to integrate supply chain of BIPV with the supply chain of local construction market and how BIPV firms are trying to build their own distribution network. Information provided in this presentation are taken from NanoMarkets' report:- "BIPV Glass Markets-2014 & Beyond'
This articles has been taken from NanoMarkets' upcoming report-"BIPV Glass 2014" and talks about various opportunities existing in BIPV glass segment. Solar energy sector is not able to perform well for quite a long time but how BIPV can score better compared to traditional solar panels, get your answer here.
Article - "Markets and Opportunities for Nanosensors"n-tech Research
The article "Markets and opportunities for Nanosensors", talks about various segments in which nanosensors are likely to find their application. It also discusses as how these nanosensors are at an advantage over traditional sensors and much more. This article has been taken from NanoMarkets upcoming report "Nanosensors Market 2014"
Nanosensors -- devices capable of detecting nanoparticles -- are already in use in the medical diagnosis field, but are expected to see near-term commercialization in military, domestic security and environmental monitoring applications, as well as several other areas. NanoMarkets believes that longer-term revenue generation from nanosensors will also emerge from a variety of uses for such sensors in microelectronics manufacturing and in the construction market. In addition, we also believe that the near-term development of nanosensors will be an important enabling technology for the “Internet-of-Things” and robotics. This report identifies where and how the commercial opportunities presented by nanosensors will appear and provides detailed projections of the size of these opportunities over the coming eight years. Each nanosensor application is analyzed in detail, showing how it will be brought to market. The report also discusses the strategies being deployed by nanosensor firms and also provides an overview of noteworthy nanosensor commercialization initiatives. In addition, to being a valuable guide for marketing and product management in the sensor industry, this report will also be required reading for executives in the specialty chemical industry, since it discusses how specific biological and nanomaterials will be used in nanosensors. Coverage of materials includes biological materials and inorganic nanomaterials including graphene and quantum dots. This report also analyzes the business implications notable trends in the fabrication of nanosensors including developments in bottom-up assembly, self-assembly and top-down lithography. - See more at: http://nanomarkets.net/market_reports/report/nanosensor-markets-2014
This power point presentation talks about key firms that are involved in LED phosphor industry and the strategy adopted by them. This presentaion is based on NanoMarkets' report "LED Phosphor Markets-2014"
This NanoMarkets report provides a thorough analysis of opportunities in the LED phosphor market, building on their 2012 report. It focuses on newer phosphor chemistries like nanophosphors, glass phosphors, and quantum dots. The report identifies how performance improvements can grow markets for phosphors in general illumination, outdoor lighting, and backlighting. It also provides eight-year forecasts of LED phosphor shipments by type, application, and location. The report is required reading for strategy planners in phosphor, lighting, and display industries.
GraphSummit Singapore | The Art of the Possible with Graph - Q2 2024Neo4j
Neha Bajwa, Vice President of Product Marketing, Neo4j
Join us as we explore breakthrough innovations enabled by interconnected data and AI. Discover firsthand how organizations use relationships in data to uncover contextual insights and solve our most pressing challenges – from optimizing supply chains, detecting fraud, and improving customer experiences to accelerating drug discoveries.
Introducing Milvus Lite: Easy-to-Install, Easy-to-Use vector database for you...Zilliz
Join us to introduce Milvus Lite, a vector database that can run on notebooks and laptops, share the same API with Milvus, and integrate with every popular GenAI framework. This webinar is perfect for developers seeking easy-to-use, well-integrated vector databases for their GenAI apps.
White Paper: Smart Materials in the Construction Sectorn-tech Research
In this paper we discuss the market potential for smart materials in the construction space. Various smart materials, coatings and surfaces are addressed along with market sizes
Evaluating Opportunities for Solar PV in Mobile Electronic Devicesn-tech Research
PV technology has been paired with small electronic devices for decades, most notably in calculators. What's new here is the emergence of alternative PV technologies -- organic PV (OPV), dye-sensitized (DSC), and thin-film variants such as CIGS -- promising not only those specific capabilities, but also potentially produced in large volumes using low-cost manufacturing processes. Many within these PV sectors are developing the technology with an eye toward building-integrated PV (BIPV), but strict performance and lifetime requirements mean this is still some ways off. Consumer electronics, on the other hand, presents an alluring easier target with opportunities right now, and potentially massive addressable volumes.
The Evolving Building Integrated Photovoltaics Marketn-tech Research
n-tech Research has witnessed the progression of technologies and products and suppliers into—and more often, out of—the BIPV market over the past six years. This market, as we see it now, is in a transition and must refine its messaging to an end-user base with shifting priorities.
More than ever, BIPV needs to be sold—and technologically developed—with an emphasis on aesthetics and what can be called its "smart" capabilities, vs. simply energy generation.
While energy efficiency is – and will remain – an important factor shaping sales of BIPV products. This means that in the future there will be more dimensions along which BIPV firms can compete. These, for example, would include color, transparency and substrate conformability.
We predict an acceleration toward truly integrated BIPV products within a building envelope, and a reshaping of manufacturing strategies and supply chains to develop and deliver these products.
Smart Coatings Markets, An Emerging Opportunityn-tech Research
The report analyzes the markets for smart coatings in key sectors of the economy including construction, energy, automotive, healthcare, consumer electronics, textiles and the military. Coverage includes relatively mature smart coatings (e.g., self-cleaning coatings), along with latest materials such as smart multi-layer coatings. The report provides an eight-year forecast in value ($ millions) terms for the overall smart coatings market. - See more at: http://ntechresearch.com/market_reports/smart-coatings-markets-an-emerging-opportunity
This report analyzes the smart coatings market from 2015-2022. It covers technical developments in self-cleaning, self-healing, and other smart coating technologies. It also provides 8-year forecasts for smart coating revenues broken down by industry and application. The forecasts predict rapid revenue growth as smart coatings are increasingly used in construction, energy, transportation, consumer electronics, and other sectors where functionality is prioritized over price. The report is intended to guide firms in the coatings industry and related sectors regarding investment opportunities in smart materials.
Organic Photovoltaic Markets 2015-2022 Sample Chaptern-tech Research
This document provides a research report on organic photovoltaic (OPV) markets from 2015 to 2022. It discusses the technology trends in OPV including improving efficiency levels above 12% in labs and 5% in pilot production. It also examines the product strategies of over a dozen companies developing OPV technologies. Finally, it provides eight-year forecasts for OPV materials, devices, and their various application markets, including building-integrated photovoltaics and off-grid solar charging.
Smart Mirrors Technologies and Markets, 2015-2022n-tech Research
In this report n-tech Research updates our evaluation of the various types of technologies that companies are using to make mirrors "smart," while noting how different sectors may have different value propositions. We also explore the various market drivers for "smart mirrors" the four key end-market sectors: automotive, home/consumer, retail/commercial, and medical/healthcare. We provide eight-year forecasts for the various "smart" technologies in each sector, both in volumes and in value terms.
This report is designed to provide guidance for marketing, business, and technology executives from not only the traditional "mirror" sector (i.e. glass and coatings), but also from the various electronics sectors providing these "smart" functionalities, particularly displays, touch sensors, and consumer electronics. We also believe this report will be valuable to evaluators in these end-markets as they evaluate how such "smart mirrors" are evolving to meet their unique application requirements.
- See more at: http://ntechresearch.com/market_reports/smart-mirrors-technologies-and-markets-2015-2022
Slides from NanoMarkets webinar on Smart Coatings Feb 2015n-tech Research
These are the slides from the NanoMarkets webinan on Smart Coatings that was held on February 11, 2015. Findings from the firm's recently released report were presented.
Smart Glasses and the Evolution of Human-Computing Interfacesn-tech Research
Within the emerging category of wearable computing, arguably the most characteristic product to emerge is "smart glasses" which mesh the communications capabilities of smartphones with additional visual and other sensual enhancements, including augmented reality. The primary selling feature of smart glasses is their ability to display video, navigation, messaging, augmented reality (AR) applications, and games on a large virtual screen, all completely hands-free. The current poster child for smart glasses is Google’s "Glass" product, but there are more than 20 firms offering smart glasses or planning to do so.
The hands-free nature of smart glasses opens up new possibilities for human-computer interfaces (HCI), drawing from smart phones as well as interfaces developed in other contexts (e.g. virtual reality). Early smart glasses models are leaning on mature and low-cost technologies with notable influence from smartphones; however we see a gradual trend for smart glasses (and other wearable computing devices) to be driven by more natural interface controls, once these technologies have time to mature as well -- and they're getting remarkably close.
Power Sources for the Internet-of-Things: Markets and Strategiesn-tech Research
NanoMarkets believes that the deployments of sensors and processors for the Internet-of-Things (IoT) are creating huge new opportunities for manufacturers of power source devices. Because of IoT, power devices such as thin-film and printed batteries, energy harvesting modules, small flexible photovoltaics panels and thermoelectric sources, which have enjoyed marginal revenues up to now, may begin generating hundreds of millions of dollars in annual revenues.
However, suppliers of IoT power sources, as well as the semiconductor industry more generally face significant uncertainties in the IoT space. Not only is future of the IoT itself unclear, but also how the IoT “power infrastructure” will shape up technologically is a great unknown.
The objective of this report is to identify where the money will be made and lost in the emergent IoT power source business. It begins with an assessment of the power requirements of the various devices that NanoMarkets believes will form the “things” in the IoT. These include sensor networks, MCUs/MPUs and tagging devices, for example. The report continues by considering how established technologies such as batteries will adapt to new IoT opportunities and whether emerging technologies such as energy harvesting and thermoelectric power sources will find their first big markets as the result of IoT.
The report explores the opportunities for all industry sectors that will be impacted by the development of new power sources for the IoT. In particular we examine how leading battery companies, chipmakers, OEMs and others are preparing for the business opportunities in the IoT power source space. The report also discusses the strategies of eight firms that NanoMarkets believes will shape the market for power sources for the IoT over the next decade.
We believe that this report will be essential reading for business development and marketing executives in the battery, energy harvesting, RFID, sensors, photovoltaics and semiconductor industries, as well as the investment community. In addition to providing a thorough analysis of the IoT power source markets, this report also provides detailed eight-year forecasts of power sources for the IoT in both volume and value terms and with break outs by power source types.
- See more at: http://nanomarkets.net/market_reports/report/power-sources-for-the-internet-of-things-markets-and-strategies
Translating CIGS Efficiency Improvements Into Market Opportunityn-tech Research
NanoMarkets sees broader adoption of both BIPV and CIGS hinging on a trade-off between cost and reliability, with lower-cost encapsulations emerging that offer minimal performance. We also note that transparency of the barrier also is very important, since any light obstruction directly reduces the performance of the PV cells within; we expect competition on this front as well.
The multimillion-dollar question about BIPV is this: what will convince customers -- architects, builders, and homeowners, even construction materials suppliers and financing entities -- to justify the extra expense in a BIPV application? Companies and organizations continue to improve and innovate around the technologies involve with building-integrated photovoltaics (PV), from new cell designs and technologies such as PERC, metal wrap-through, and "smart wire" structures, to new and improved materials from thin-film CIGS to dye-sensitized and organic PV, and the latest solar PV wonder-material perovskite. Standardization will help reduce the complexity (and thus costs) of BIPV installations; this already has made some headway in the U.K. for products such as roof tiles and shingles. These are needed progress in performance and cost reductions, but they're not enough.
NanoMarkets believes the answer lies in other factors to consider
Information provided in this presentation are taken from NanoMarkets' report:-"Smart Glass Opportunities in the Automotive Industry—2014." It makes an assessment of smart glass technology for automotive applications. It also highlights the key trends that are likely to shape the revenue potential of smart automotive sector in the coming years.
As niche market image of BIPV is changing, this presentation talks about various opportunities that exists for both PV firms and glass firms in this space. It talks about those factors that are likely to influence BIPV markets in the coming years. Also it discusses as how attempts are made to integrate supply chain of BIPV with the supply chain of local construction market and how BIPV firms are trying to build their own distribution network. Information provided in this presentation are taken from NanoMarkets' report:- "BIPV Glass Markets-2014 & Beyond'
This articles has been taken from NanoMarkets' upcoming report-"BIPV Glass 2014" and talks about various opportunities existing in BIPV glass segment. Solar energy sector is not able to perform well for quite a long time but how BIPV can score better compared to traditional solar panels, get your answer here.
Article - "Markets and Opportunities for Nanosensors"n-tech Research
The article "Markets and opportunities for Nanosensors", talks about various segments in which nanosensors are likely to find their application. It also discusses as how these nanosensors are at an advantage over traditional sensors and much more. This article has been taken from NanoMarkets upcoming report "Nanosensors Market 2014"
Nanosensors -- devices capable of detecting nanoparticles -- are already in use in the medical diagnosis field, but are expected to see near-term commercialization in military, domestic security and environmental monitoring applications, as well as several other areas. NanoMarkets believes that longer-term revenue generation from nanosensors will also emerge from a variety of uses for such sensors in microelectronics manufacturing and in the construction market. In addition, we also believe that the near-term development of nanosensors will be an important enabling technology for the “Internet-of-Things” and robotics. This report identifies where and how the commercial opportunities presented by nanosensors will appear and provides detailed projections of the size of these opportunities over the coming eight years. Each nanosensor application is analyzed in detail, showing how it will be brought to market. The report also discusses the strategies being deployed by nanosensor firms and also provides an overview of noteworthy nanosensor commercialization initiatives. In addition, to being a valuable guide for marketing and product management in the sensor industry, this report will also be required reading for executives in the specialty chemical industry, since it discusses how specific biological and nanomaterials will be used in nanosensors. Coverage of materials includes biological materials and inorganic nanomaterials including graphene and quantum dots. This report also analyzes the business implications notable trends in the fabrication of nanosensors including developments in bottom-up assembly, self-assembly and top-down lithography. - See more at: http://nanomarkets.net/market_reports/report/nanosensor-markets-2014
This power point presentation talks about key firms that are involved in LED phosphor industry and the strategy adopted by them. This presentaion is based on NanoMarkets' report "LED Phosphor Markets-2014"
This NanoMarkets report provides a thorough analysis of opportunities in the LED phosphor market, building on their 2012 report. It focuses on newer phosphor chemistries like nanophosphors, glass phosphors, and quantum dots. The report identifies how performance improvements can grow markets for phosphors in general illumination, outdoor lighting, and backlighting. It also provides eight-year forecasts of LED phosphor shipments by type, application, and location. The report is required reading for strategy planners in phosphor, lighting, and display industries.
GraphSummit Singapore | The Art of the Possible with Graph - Q2 2024Neo4j
Neha Bajwa, Vice President of Product Marketing, Neo4j
Join us as we explore breakthrough innovations enabled by interconnected data and AI. Discover firsthand how organizations use relationships in data to uncover contextual insights and solve our most pressing challenges – from optimizing supply chains, detecting fraud, and improving customer experiences to accelerating drug discoveries.
Introducing Milvus Lite: Easy-to-Install, Easy-to-Use vector database for you...Zilliz
Join us to introduce Milvus Lite, a vector database that can run on notebooks and laptops, share the same API with Milvus, and integrate with every popular GenAI framework. This webinar is perfect for developers seeking easy-to-use, well-integrated vector databases for their GenAI apps.
Observability Concepts EVERY Developer Should Know -- DeveloperWeek Europe.pdfPaige Cruz
Monitoring and observability aren’t traditionally found in software curriculums and many of us cobble this knowledge together from whatever vendor or ecosystem we were first introduced to and whatever is a part of your current company’s observability stack.
While the dev and ops silo continues to crumble….many organizations still relegate monitoring & observability as the purview of ops, infra and SRE teams. This is a mistake - achieving a highly observable system requires collaboration up and down the stack.
I, a former op, would like to extend an invitation to all application developers to join the observability party will share these foundational concepts to build on:
Climate Impact of Software Testing at Nordic Testing DaysKari Kakkonen
My slides at Nordic Testing Days 6.6.2024
Climate impact / sustainability of software testing discussed on the talk. ICT and testing must carry their part of global responsibility to help with the climat warming. We can minimize the carbon footprint but we can also have a carbon handprint, a positive impact on the climate. Quality characteristics can be added with sustainability, and then measured continuously. Test environments can be used less, and in smaller scale and on demand. Test techniques can be used in optimizing or minimizing number of tests. Test automation can be used to speed up testing.
Sudheer Mechineni, Head of Application Frameworks, Standard Chartered Bank
Discover how Standard Chartered Bank harnessed the power of Neo4j to transform complex data access challenges into a dynamic, scalable graph database solution. This keynote will cover their journey from initial adoption to deploying a fully automated, enterprise-grade causal cluster, highlighting key strategies for modelling organisational changes and ensuring robust disaster recovery. Learn how these innovations have not only enhanced Standard Chartered Bank’s data infrastructure but also positioned them as pioneers in the banking sector’s adoption of graph technology.
Dr. Sean Tan, Head of Data Science, Changi Airport Group
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Why Solution Processing May Still Matter in the OLED Industry
1. White Paper:
Why Solution Processing May Still Matter in
the OLED Industry
Published March 2013
2. The Short, Sad History of Solution-Processed OLEDs
Not that many years ago it seems, solution processing was being touted as the OLED’s future.
“Printing” was the way to get OLEDs down in price to where they would become widely used.
Indeed, the arguments seemed hard to argue with:
Solution processing is inherently less costly than vapor deposition and easier to scale to Page | 1
larger substrate size. It is also highly compatible with R2R manufacturing; a long-term
dream of the industry.
Material waste with solution processing is potentially much lower than in conventional
vapor-phase deposition processes. Important when expensive OLED materials are
involved.
So things should have gone well for solution-processed OLEDs. But they haven’t. Efforts to get
printed polymer OLEDs out of the gate have moved only just slightly beyond the science project
stage. Polymer OLEDs subsist mainly because of the huge resources that Sumitomo can bring to
them. GE promised to be the first in the market with a reasonably priced OLED lighting panel
using solution-processed small molecules. But things don’t seem to have gone well there either.
Worse. Samsung has shown up those who once said that solution processing was the only way
to go in the OLED world, by turning the OLED cell phone display into a mass market; indeed the
only OLED mass market to date.
And yet, some important firms continue to soldier on with solution processing. DuPont Displays,
UDC, Sumitomo, Solvay, and Merck/EMD are all betting on solution deposition for future
generations of OLEDs, and are actively developing OLED materials for inkjet printing, wet
coating, nozzle printing, aerosol jet printing, etc.
Most are expecting commercialization within the next year to 18 months. So the question has to
be asked, is there some real value that solution processing can bring to the OLED sector? Or are
the firms still dreaming of solution-processed OLEDs merely nostalgic or delusional?
Size Matters and So Does Solution Processing
The huge success of Samsung’s Galaxy phones with OLED displays has shown that OLEDs can
compete extremely successfully against LCD displays. And ongoing speculation that Apple will
also use OLEDs for iPhones and iPads in the near future shows that OLEDs have now
established a level of credibility where such things can be said without being laughed at.
This is no mean feat. Various new display technologies have gone into battle against LCDs over
the past few decades and all of them have until now been beaten back. The fact that OLEDs
have done so well is remarkable in its way. However, this success remains confined to small- and
medium-sized OLED displays.
From the perspective of the OLED materials sector – and as Exhibit 1 shows – this is not so bad.
If OLEDs continue to grow in just these small- and medium-area displays, then NanoMarkets’
latest forecasts indicate that the market for functional OLED materials (emitter, host, blocking,
5. Office lighting: The U.S. Department of Energy, estimates that OLED lighting is currently about
10 times too expensive to compete widely in general illumination in the workplace.
Cost reductions might be achieved by moving to higher generation production lines, although
larger manufacturing facilities require investment by pioneering firms willing to take the risk. So
far, only LG has really committed to building a full-scale plant for larger-area panels; LG is Page | 4
spending $650 million on a Gen-8 WOLED TV line, and the firm could use this line to accelerate
progress on its efforts toward making larger-area OLED lighting panels as well.
But materials suppliers can enable cost reductions, too: organic layer formulations could be made
more stable and easier to deposit in uniform layers, cost-effective high performance
encapsulation systems would reduce yield losses; and more conductive, transparent electrodes
could reduce brightness non-uniformity and resistive loss (heating), especially in OLED lighting
panels.
Solution Processing to the Rescue?
While any number of materials and manufacturing improvements could get the OLED industry
part of the way to where it needs to be with regard to large panels, NanoMarkets believes that a
major part of the manufacturing strategy that will get the OLED industry to the high-end revenue
scenario that we show in Exhibit 2 will involve solution processing. The point here is that we think
there is enough in the old solution processing story to make this technology. Or in different
words, solution processing may not have gotten us that far to date, but the problems associated
with it can be fixed and are worth fixing.
Apart from purely technical considerations, one reason for being optimistic about solution
processing’s future role in the OLED sector is that when NanoMarkets analyzed what was going
on in solution processed OLEDs, we found a lot more than just collapsing research programs
from a decade ago; although there were those too. But there are also some bright new solution
processing technologies that, we believe, will bring solution processing to the fore in the OLED
sector in just a few years. And these newer programs are being masterminded – and paid for –
by firms with deep pockets.
Thus, DuPont is known to be working with Samsung on solution processing for OLED TVs,
although their timeline for commercialization is unknown. However, at least one panel maker –
Pioneer, in partnership with Mitsubishi’s Verbatim brand – is planning to commercialize OLED
lighting panels made using solution processing in 2014. If successful, this team will be the first to
market and may be the one that does what GE was unable to do. If Pioneer succeeds in this
regard, it is even just possible that GE may jump back into the game.
Given this, NanoMarkets believes that, eventually, a shift from conventional vapor-deposition
technology toward solution processing is highly likely with solution processing eventually taking
up a sizeable share of the OLED market. (See Exhibit 3.). Should this scenario pan out, we
anticipate that revenues from solution-processable OLED functional materials will grow from
about $50 million this year to well over $800 million by 2019.