Provide latest technology trends and market forecast information that can enhance our customers’ competency by conducting professional industrial research on major growing industries such as rechargeable batteries, electric vehicles, ESS, and new lighting
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Battery, Battery Materials<2023> Oxide-based Solid-state Battery Technology Trends and Market Outlook
<2023> Oxide-based Solid-state Battery Technology Trends and Market Outlook (Analysis of major company development trends and manufacturing technologies) The performance of lithium-ion batteries (LIBs) has improved dramatically, especially in energy density, due to continuous technology development driven by the explosive demand for new electronics and electric vehicles. However, high energy density also poses the risk of fire or explosion, and explosive reactions can occur due t
2023.05.04
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Battery, Battery Materials, EV, Energy Storage System, Emerging Industry<2023> Mitigation/ Prediction/ Diagnosis of Battery Degradation; Technology Status and Related Companies
<2023> Mitigation/ Prediction/ Diagnosis of Battery Degradation, Technology Status and Related Companies Battery degradation is the root cause of performance degradation of batteries. High-capacity and high-power batteries in particular require deep understanding about the degradation because its performance gets worse due to severe degradation. Currently, concerning the degradation, development of diagnosis technology for waste batteries and fast char
2023.03.27
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Battery, Battery Materials<2023> Lithium Ion Secondary Battery Anode Material Technology Trend and Market Outlook (~2030)
Currently, graphite is mostly being used as an anode material for lithium secondary batteries. It means that from 1991 - when Sony firstly commercialized lithium secondary batteries - until now, graphite has firmly maintained its throne of anode materials. This has nearly been steadfast even for the last 20 years, while other materials, including cathode materials, separation membranes, etc, have changed. Graphite is largely divided into natural and artificial graphite. Raw
2023.03.06
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Battery, Battery Materials, EVGlobal EV & Battery Quarterly Forecast (Incl. Cathode & Li, Co, Ni, Mn)
Global EV & Battery Quarterly Forecast (Incl. Cathode & Li, Co, Ni, Mn) - World’s only global quarterly xEV, battery, cathode and 4 minerals production forecast DB - Based on a total of 20,000+ xEV models and battery cathode materials, Li, Co, Ni, and Mn consumption data in 80 countries, SNE Research offers market forecast / analysis till 2025 and analytical tool. Starting from 2017, the world’s interest in the electric vehicle market has been cont
2023.02.17
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Battery, Battery Materials, EVGlobal EV & Battery Quarterly Forecast
Global EV & Battery Quarterly Forecast - World’s only global quarterly xEV sales and battery usage forecast DB - Based on a total of 20,000+ xEV models and battery usage DB in 80 countries, SNE Research offers market forecast / analysis for the next three years from the current date. Since electric vehicles priced at around US$ 30,000 with the driving range of over 300 kilometers – similar to gasolin-powered vehicles – became available in the market, a d
2023.02.17
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Battery, Battery Materials<2023> Separators for Lithium Secondary Batteries - Technology Trends and Market Outlook (~2030)
<2023> Separators for Lithium Secondary Batteries - Technology Trends and Market Outlook (~2030)Chapter Ⅰ. Status and Development Trends of Separator Technology1. Introduction 1.2. Types of Separator 1.2.1 Micro Pore Membrane 1.2.2 Nonwoven Base film Chapter Ⅱ. Polyolefin-Based Separator 2.1. Manufacturing Process of Polyolefin-Based Separator 2.1.1 Dry Process 2.1.2 Wet Process 2.2 Properties of Polyolefin-Based Separator 2.2.1 Thickness 2.
2023.02.16
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Battery, Battery Materials<2023> SCM Analysis and Market Outlook for LIB 4 Major Materials (~2030)
<2023> SCM Analysis and Market Outlook for LIB 4 Major Materials (~2030) The global LIB market has seen a huge growth since 1991 when Sony first developed the lithium-ion battery, and the Japanese cell makers, such as Panasonic (Sanyo) and Hitachi have been leading the market growth with IT devices as a center. In the 2000s, the Korean companies as well as the Chinese makers started to enter the market, and as of today, the size of lithium-ion battery market reaches
2023.02.15
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Battery, Battery Materials<2023> The Present and The Future of Solid State Battery Manufacturing Technology
<2023> The Present and Future of All Solid-State Battery Manufacturing Technology(Subtitle: In-depth Analysis on Manufacturing Technology and R&D Trend of Major Companies) The performance of lithium-ion battery (LIB), most widely used today, has been improved through continuous technology development propped up with an explosive demand in new electronic devices and electric vehicles. Particularly, the energy density has been dramatically increased from 80Wh/kg in
2023.01.27
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Battery, Battery Materials, EV<2022>Technology Status and Market Outlook for Cathode Material (~2030)
<2022> Technology Trend and Market Outlook for Cathode Materials of Lithium-ion Secondary Batteries Recently, the secondary battery market has been expanding from small IT application market to ESS and EV market, and accordingly demand for cathode materials in the secondary battery market is also expected to increase. Lithium-ion secondary batteries were invented by Akira Yoshino of Japan around 1985 and were commercialized by Sony in 1991.The cathode
2022.11.08
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