Search

Your search keyword '"Lithium cells -- Materials"' showing total 37 results
Start Over Descriptor "Lithium cells -- Materials"
37 results on '"Lithium cells -- Materials"'

1. Li metal deposition and stripping in a solid-state battery via Coble creep

Author

Chen, Yuming, Wang, Ziqiang, Li, Xiaoyan, Yao, Xiahui, Wang, Chao, Li, Yutao, Xue, Weijiang, Yu, Daiwei, Kim, So Yeon, Yang, Fei, Kushima, Akihiro, Zhang, Haitao, Wu, Nan, Mai, Yiu-Wing, Goodenough, John B., and Li, Ju

Subjects
Lithium cells -- Materials, Electrophoretic deposition -- Observations, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Solid-state lithium metal batteries require accommodation of electrochemically generated mechanical stress inside the lithium: this stress can be.sup.1,2 up to 1 gigapascal for an overpotential of 135 millivolts. Maintaining the mechanical and electrochemical stability of the solid structure despite physical contact with moving corrosive lithium metal is a demanding requirement. Using in situ transmission electron microscopy, we investigated the deposition and stripping of metallic lithium or sodium held within a large number of parallel hollow tubules made of a mixed ionic-electronic conductor (MIEC). Here we show that these alkali metals--as single crystals--can grow out of and retract inside the tubules via mainly diffusional Coble creep along the MIEC/metal phase boundary. Unlike solid electrolytes, many MIECs are electrochemically stable in contact with lithium (that is, there is a direct tie-line to metallic lithium on the equilibrium phase diagram), so this Coble creep mechanism can effectively relieve stress, maintain electronic and ionic contacts, eliminate solid-electrolyte interphase debris, and allow the reversible deposition/stripping of lithium across a distance of 10 micrometres for 100 cycles. A centimetre-wide full cell--consisting of approximately 10.sup.10 MIEC cylinders/solid electrolyte/LiFePO.sub.4--shows a high capacity of about 164 milliampere hours per gram of LiFePO.sub.4, and almost no degradation for over 50 cycles, starting with a 1× excess of Li. Modelling shows that the design is insensitive to MIEC material choice with channels about 100 nanometres wide and 10-100 micrometres deep. The behaviour of lithium metal within the MIEC channels suggests that the chemical and mechanical stability issues with the metal-electrolyte interface in solid-state lithium metal batteries can be overcome using this architecture. By containing lithium metal within oriented tubes of a mixed ionic-electronic conductor, a 3D anode for lithium metal batteries is produced that overcomes chemomechanical stability issues at the electrolyte interface., Author(s): Yuming Chen [sup.1] [sup.2] [sup.3] , Ziqiang Wang [sup.1] [sup.2] , Xiaoyan Li [sup.1] [sup.2] [sup.3] [sup.4] , Xiahui Yao [sup.1] [sup.2] , Chao Wang [sup.1] [sup.2] , Yutao [...]

Published
2020
Full Text
View/download PDF

2. Lithium-sulfur batteries are one step closer to powering the future

Subjects
Lithium cells -- Materials, Sulfur -- Usage -- Chemical properties, Aerospace and defense industries, Astronomy, High technology industry, Telecommunications industry
Abstract

Lemont IL (SPX) Jan 09, 2023 With a new design, lithium-sulfur batteries could reach their full potential. Batteries are everywhere in daily life, from cell phones and smart watches to [...]

Published
2023

3. Lithium Scarcity Has Carmakers Scrambling Into Mining Industry

Author

Krauss, Clifford and Ewing, Jack

Subjects
Lithium -- Supply and demand, Lithium cells -- Materials, Automobile industry -- Industry forecasts, Mineral industry -- Industry forecasts, Mining industry -- Industry forecasts, Automobile Industry, General interest, News, opinion and commentary
Abstract

Eager to avoid falling further behind Tesla and Chinese car companies, many Western auto executives are bypassing traditional suppliers and committing billions of dollars on deals with lithium mining companies. [...]

Published
2023

4. Exxon and the Race For Arkansas Lithium

Author

Massey, Kyle

Subjects
Exxon Mobil Corp. -- Investments -- Contracts, Lithium -- Usage, Mineral rights -- Contracts, Lithium cells -- Materials, Mineral industry -- Contracts, Petroleum industry -- Contracts -- Investments, Mining industry -- Contracts, Contract agreement, Company investment, Business, Business, regional
Abstract

The lithium mining boom is on in south Arkansas, and big fish are jumping into the subterranean water. After years of development by Standard Lithium of Vancouver, British Columbia, which [...]

Published
2023

5. Scientists discover new electrolyte for solid-state lithium-ion batteries

Subjects
Lithium cells -- Materials, Electrolytes -- Composition, Solid state electronics -- Research, Aerospace and defense industries, Astronomy, High technology industry, Telecommunications industry
Abstract

Lemont IL (SPX) Feb 17, 2022 New battery material offers promise for the development of all-solid batteries. In the quest for the perfect battery, scientists have two primary goals: create [...]

Published
2022

6. METAL DETECTORS; Automakers hunt for battery materials needed to be EV leaders

Author

Lutz, Hannah

Subjects
Lithium cells -- Materials, Automobile industry -- Buildings and facilities -- Alliances and partnerships, Electric vehicles -- Equipment and supplies, Battery industry -- Alliances and partnerships -- Buildings and facilities, Automobile Industry, Automobile industry, Business
Abstract

Byline: Hannah Lutz The shift to electric vehicles will mean less drilling for oil, but EVs still depend heavily on precious resources that come from deep within the Earth. Making [...]

Published
2021

7. The real cost of batteries: in the heart of Africa, miners risk their lives for a vital element in your favorite devices

Author

Barone, Jennifer

Subjects
Lithium cells -- Materials, Children -- Employment, Cobalt -- Usage -- Chemical properties -- Health aspects, Child labor practices -- Forecasts and trends, Market trend/market analysis, Education, Science and technology
Abstract

ESSENTIAL QUESTION: Where do the materials used to make electronic devices come from? Every day, millions of people casually turn on a smartphone or laptop. The screens light up almost [...]

Published
2017

8. Energy Riches In Bolivia Lure Global Suitors

Author

Krauss, Clifford and Kohut, Meridith

Subjects
Russia -- International economic relations, United States -- International economic relations, China -- International economic relations, Salar de Uyuni, Bolivia -- Economic aspects -- Natural resources, Lithium cells -- Materials, Electric vehicles -- Equipment and supplies, Foreign corporations -- Investments -- Buildings and facilities, Company investment, General interest, News, opinion and commentary
Abstract

SALAR DE UYUNI, Bolivia -- The mission was quixotic for a small Texas energy start-up: Beat out Chinese and Russian industrial giants in unlocking mineral riches that could one day [...]

Published
2021

9. Study Findings on Separation and Purification Science Published by Researchers at Sichuan University (High Value-Added Utilization of Waste Hydrodesulfurization Catalysts: Low-Cost Synthesis of Cathode Materials for Lithium-Ion Batteries)

Subjects
Lithium cells -- Materials, Chemical synthesis -- Methods, Cathodes -- Materials, Health, Science and technology
Abstract

2023 JAN 13 (NewsRx) -- By a News Reporter-Staff News Editor at Science Letter -- New research on separation and purification science is the subject of a new report. According [...]

Published
2023

10. Expressions Of Confidence In Arkansas

Subjects
Arkansas -- Economic aspects -- Educational aspects, Walmart Inc. -- Investments -- Contracts, Canoo Inc. -- Contracts, Lithium cells -- Materials, Automobile industry -- Contracts, Discount stores -- Investments -- Contracts, Electric vehicles -- Purchasing, Universities and colleges -- Officials and employees -- Arkansas -- United States, Battery industry -- Production management -- Investments, Contract agreement, Automobile Industry, Company investment, Business, Business, regional, Arkansas State University -- Officials and employees
Abstract

We'd like to direct your attention to three developments last week, expressions of confidence in Arkansas' future, always welcome but particularly so during the blistering days of summer. * Todd [...]

Published
2022

11. Galvanic Finds Lode of Lithium in Arkansas Brine

Author

Massey, Kyle

Subjects
Lithium cells -- Materials, Battery industry -- Public relations -- Buildings and facilities, Company public relations, Business, Business, regional
Abstract

An Oklahoma company challenging a Canadian startup in the race to create a domestic lithium industry in south Arkansas has completed a resource study suggesting it's a prospect to watch. [...]

Published
2022

12. University of Science and Technology Beijing Researchers Reveal New Findings on Nanoparticles (Oxygen Vacancies in Bismuth Tantalum Oxide to Anchor Polysulfide and Accelerate the Sulfur Evolution Reaction in Lithium-Sulfur Batteries)

Subjects
Lithium cells -- Materials, Bismuth -- Usage -- Electric properties -- Chemical properties, Polysulfides -- Usage -- Electric properties -- Chemical properties, Sulfur -- Electric properties -- Chemical properties, Biological sciences, Health
Abstract

2022 NOV 8 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- New study results on nanoparticles have been published. According to news reporting out of [...]

Published
2022

13. City University of Hong Kong Researcher Highlights Recent Research in Nanomaterials (Boosting the reaction kinetics in aprotic lithium-carbon dioxide batteries with unconventional phase metal nanomaterials)

Subjects
Lithium cells -- Materials, Nanoparticles -- Usage -- Electric properties -- Chemical properties, Lithium compounds -- Chemical properties -- Electric properties -- Usage, Chemical research, Carbon dioxide -- Chemical properties -- Electric properties -- Usage, Chemical reaction, Rate of -- Research, Biological sciences, Health
Abstract

2022 OCT 11 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Researchers detail new data in nanomaterials. According to news reporting out of Hong Kong, [...]

Published
2022

14. Nickel and cobalt - raw materials of the future

Subjects
Lithium cells -- Materials, Nickel -- Usage -- Marketing, Electric vehicles -- Equipment and supplies, Mineral industry -- Marketing, Mining industry -- Marketing, Cobalt -- Usage -- Marketing, Company marketing practices, Business, Business, international
Abstract

M2 PRESSWIRE-January 27, 2022-: Nickel and cobalt - raw materials of the future (C)1994-2022 M2 COMMUNICATIONS RDATE:27012022 (PresseBox) (Herisau) An increasing number of devices need lithium-ion batteries, as do electric [...]

Published
2022

15. Electrochemical reactions drive morphing of materials

Author

Jeon, Seung-Yeol and Kang, Sung Hoon

Subjects
Lithium cells -- Materials, Electrochemical reactions -- Analysis -- Influence, Smart materials -- Properties, Phase change materials -- Analysis -- Properties, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Silicon anodes in lithium batteries expand during discharge, causing failure. This expansion has been used constructively in a material whose architecture controllably and reversibly changes to alter its function. A material that reconfigures when loaded or unloaded with lithium ions., Author(s): Seung-Yeol Jeon, Sung Hoon Kang Author Affiliations: Electrochemical reactions drive morphing of materials If pressure is applied to a block of rubber, it flattens, but reverts to its original [...]

Published
2019
Full Text
View/download PDF

16. Multivariate curve resolution analysis for interpretation of dynamic Cu K-edge X-ray absorption spectroscopy spectra for a Cu doped [V.sub.2][O.sub.5] lithium battery

Author

Conti, Paolo, Zamponi, Silvia, Giorgetti, Marco, Berrettoni, Mario, and Smyrl, William H.

Subjects
Multivariate analysis -- Methods, Adsorption -- Research, X-rays -- Usage, Spectrum analysis -- Methods, Spectrum analysis -- Equipment and supplies, Spectrum analysis -- Technology application, Copper -- Chemical properties, Lithium cells -- Chemical properties, Lithium cells -- Materials, Technology application, Chemistry
Abstract

Vanadium pentoxide materials prepared through sol--gel processes act as excellent intercalation hosts for lithium as well as polyvalent cations. A chemometric approach has been applied to study the X-ray absorption near-edge structure (XANES) evolution during in situ scanning of the [Cu.sub.0.1][V.sub.2][O.sub.5] xerogel/Li ions battery. Among the more common techniques, the fixed size windows evolving factor analysis (FSWEFA) permits the number of species involved in the experiment to be determined and the range of existence of each of them. This result, combined with the constraints of the invariance of the total concentration and non-negativity of both concentrations and spectra, enabled us to obtain the spectra of the pure components using a multivariate curve resolution refined by an alternate least squares fitting procedure. This allowed the normalized concentration profile to be understood. This data treatment evidenced the occurrence, for the first time, of three species during the battery charging. This fact finds confirmation by comparison of the pure spectra with the experimental ones. Extended X-ray absorption fine structure (EXAFS) analysis confirms the occurrence of three different chemical environments of Cu during battery charging. 10.1021/ac902865h

Published
2010

17. The global lithium rush

Author

Moores, Simon

Subjects
Lithium cells -- Materials, Mineral industry -- Discovery and exploration, Mining industry -- Discovery and exploration, Lithium -- Supply and demand, Lithium -- Discovery and exploration, Electric vehicles, Business, Petroleum, energy and mining industries
Published
2010

18. New Materials Science Study Results Reported from Chengdu University of Technology (Adjusting the Covalency of Metal-oxygen Bonds In Lacoo3 By Sr and Fe Cation Codoping To Achieve Highly Efficient Electrocatalysts for Aprotic Lithium-oxygen ...)

Subjects
Metals -- Usage -- Chemical properties -- Electric properties, Oxygen -- Chemical properties -- Electric properties -- Usage, Lithium cells -- Materials, Perovskite -- Usage -- Chemical properties -- Electric properties, Electrodes -- Materials, Degassing of metals -- Usage -- Chemical properties -- Electric properties, Lanthanum -- Usage -- Electric properties -- Chemical properties, Biological sciences, Health
Abstract

2021 AUG 31 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Research findings on Science - Materials Science are discussed in a new report. According [...]

Published
2021

19. Findings on Membrane Transport Proteins Discussed by Investigators at Xiangtan University (Li2s In Situ Grown On Three-dimensional Porous Carbon Architecture With Electron/ion Channels and Dual Active Sites As Cathodes of Li-s Batteries)

Subjects
Lithium cells -- Materials, Ion channels -- Electric properties, Carbon -- Electric properties, Porous materials -- Usage -- Electric properties, Cathodes -- Usage -- Electric properties, Biological sciences, Health
Abstract

2021 AUG 31 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Data detailed on Carrier Proteins - Membrane Transport Proteins have been presented. According to [...]

Published
2021

20. Findings on Carbon Research Discussed by Investigators at Wuhan University of Technology (A Hybrid Lithium Storage Mechanism of Hard Carbon Enhances Its Performance As Anodes for Lithium-ion Batteries)

Subjects
Lithium cells -- Materials, Carbon -- Usage, Health, Science and technology
Abstract

2021 JUL 9 (NewsRx) -- By a News Reporter-Staff News Editor at Science Letter -- Researchers detail new data in Carbon Research. According to news reporting originating from Hubei, People's [...]

Published
2021

22. [Mn.sub.3][O.sub.4]-Graphene hybrid as a high-capacity anode material for lithium ion batteries

Author

Hailiang Wang, Le-Feng Cui, Yuan Yang, Casalongue, Hernan Sanchez, Robinson, Joshua Tucker, Yongye Liang, Yi Cui, and Hongjie Dai

Subjects
Graphene -- Structure, Graphene -- Chemical properties, Graphene -- Electric properties, Lithium cells -- Materials, Nanotechnology -- Research, Chemistry
Abstract

Two-step solution-phase reactions are developed for preparing hybrid materials of [Mn.sub.3][O.sub.4] nanoparticles on reduced graphene oxide (RGO) sheets for lithium ion battery applications. The growth-on-graphene approach has offered a new method for designing and preparing battery electrodes based on highly insulating materials.

Published
2010

23. Ethoxycarbonyl-based organic electrode for Li-batteries

Author

Walker, Wesley, Grugeon, Sylvie, Mentre, Olivier, Laruelle, Stephane, Wudl, Fred, and Tarascon, Jean-Marie

Subjects
Carbonyl compounds -- Chemical properties, Carbonyl compounds -- Electric properties, Lithium cells -- Materials, Nuclear magnetic resonance spectroscopy -- Usage, X-rays -- Diffraction, X-rays -- Usage, Chemistry
Abstract

The article explains the synthesis, characterization, as well as the properties of various ethoxycarbonyl-based organic electrodes used in lithium batteries. Organic components are shown to lead to significant enhancement of the performance of the batteries.

Published
2010

24. Environmentally friendly chemical route to vanadium oxide single-crystalline nanobelts as a cathode material for lithium-ion batteries

Author

Guicun Li, Shuping Pang, Li Jiang, Zhiyan Guo, and Zhikun Zhang

Subjects
Chemical synthesis -- Analysis, Lithium cells -- Design and construction, Lithium cells -- Materials, X-rays -- Diffraction, X-rays -- Analysis, Chemicals, plastics and rubber industries
Abstract

An environmentally friendly approach for the synthesis of orthorhombic [V.sub.2][O.sub.5] single-crystalline nanobelts in the [H.sub.2][O.sub.2] aqueous solution on a large scale is reported. The experimental finding demonstrates that the use of a nanosized belt-like structure could considerably enhance the specific discharge capacity in lithium-ion batteries.

Published
2006

26. Flaming Batteries Could Be Extinguished Forever; Scientists at the Fraunhofer Institute have found a way to create energy-dense lithium-ion batteries without the use of flammable organic electrolytes

Subjects
Lithium cells -- Materials, Lithium cells -- Research, Product safety
Abstract

Lithium-ion batteries, used in laptops, cell phones, and other devices, have played a role in a number of fires in recent years, and concerns about potential manufacturing defects have led […]

Published
2008

27. Development of novel, high performance LiFePO₄ cathode materials for Li-ion batteries

Author

Oh, Seiwoon and Oh, Seiwoon

Abstract

LiFePO4 (LFP) has been extensively studied as one of the most promising cathode materials of Li-ion batteries because of its low cost, acceptable environmental characteristics, and good safety. In spite of these attractive features, LFP requires further modifications to overcome limitations, such as poor electronic conductivity and slow Li-ion diffusion through the LFP/FePO4 interfaces. In this thesis, graphene oxide (GO) particles are mixed with LFP nanocrystals based on a polyol method to increase the electrical conductivity of the active material without further annealing steps. As a result, an effective 3D conducting network is formed by GO sheets that bridge the LFP crystals, which in turn facilitate electron transport and thus improve the kinetics and rate performance of LFP. The GO/LFP (1:9 wt.%) composites exhibite a discharge capacity of 164 mAh/g, 156.7 mAh/g and 121.5 mAh/g at 0.1, 1 and 10 C, respectively. The crystal size and their arrangement influence the capacity and rate performance of LFP. While the crystal size can be minimized by modifying the synthesis conditions, too small a crystal may reduce the energy density due to the very large surface area. The retention rate of bulk crystals with a porous structure can be a good solution to the low energy density. A method is developed to synthesize porous LFP spheres using sugar spheres as template based on a layer-by-layer self-assembly process. The porous spheres are deposited with a carbon coating via electropolymerization of aniline monomer followed by carbonization, producing a porous core-shell structure. A high capacity of 158.5 mAh/g at 1C achieved due to the porous core structure, while both a high specific capacity and high rate capabilities of 158.5, 121, 101.5, 77 and 79.7 mAh/g at 1, 10, 20, 30 and 40 C, respectively, are obtained due to the carbon shell. Carbon free LFP porous structure has good cycleability, but it has a marginally low specific capacity of 147 mAh/g at 0.1 C.

Published
2012

28. The lithium deficit

Author

Castaldo, Joe

Subjects
Electric vehicles -- Fuel and fuel systems, Lithium -- Usage, Lithium -- Supply and demand, Lithium cells -- Materials, Hybrid vehicles -- Fuel and fuel systems, Business, Business, regional, Economics
Abstract

Experts are concerned that there may not be enough lithium available to support the expected rise in demand for the natural resource. Lithium is used in lithium ion batteries, the standard power source for electric and hybrid vehicles. Experts believe that the demand for lithium can only be measured once the technology is out in the market.

Published
2009

29. Battery powered

Author

Hall, Peter and Tennison, Steve

Subjects
Energy storage -- Equipment and supplies, Energy storage -- Innovations, Lithium cells -- Usage, Lithium cells -- Materials, Business, Chemicals, plastics and rubber industries
Abstract

Hydrogen route is one of the technologies being developed to address energy storage concerns, but this technology has low cycle efficiency and poses safety issues on handling explosive gas. Electrochemical storage is a more preferred energy storage option with lithium-ion (Li-ion) batteries. Details on anode materials in Li-ion batteries are discussed.

Published
2008

30. The power of pores

Author

Tullo, Alexander H.

Subjects
Chemical industry -- Industry forecasts, Herbicides -- Industry forecasts, Pesticides industry -- Industry forecasts, Polymers -- Usage, Lithium cells -- Materials, Motor vehicles -- Batteries, Motor vehicles -- Forecasts and trends, Motor vehicles -- Materials, Automobiles, Electric, Market trend/market analysis, Chemicals, plastics and rubber industries, Engineering and manufacturing industries
Abstract

Chemical companies are examining options of the usage of polymer separators used in lithium-ion batteries finding their way into car batteries. This could mean an electric powered rather than a gasoline car.

Published
2008

31. Algae holds power to extend battery life

Author

Beidel, Eric

Subjects
Lithium cells -- Materials, Aerospace and defense industries, Business, Georgia Institute of Technology -- Works, Clemson University -- Works
Abstract

* The Navy has proven it can power its boats with algae based fuel. Now, scientists may have discovered another reason for the military to harvest it. Researchers at Georgia [...]

Published
2011

32. Novolyte splits its operations as Korean electrolytes JV is formed

Subjects
Chemical industry -- Joint ventures, Chemical industry -- Production management, Herbicides -- Joint ventures, Herbicides -- Production management, Pesticides industry -- Joint ventures, Pesticides industry -- Production management, Electrolytes -- Production management, Lithium cells -- Materials, Company joint venture, Business, Chemicals, plastics and rubber industries
Published
2010

33. Batteries power on

Author

Salusbury, Ian

Subjects
Electric vehicles -- Equipment and supplies, Computer-generated environments -- Methods, Computer-generated environments -- Innovations, Computer simulation -- Methods, Computer simulation -- Innovations, Lithium cells -- Design and construction, Lithium cells -- Materials, Consumer electronics -- Equipment and supplies, Business, Chemicals, plastics and rubber industries, University of London. University College London -- Research
Abstract

The University College London, UK has conducted a research which created a novel computer model that yielded new titanate structures for improved performance of rechargeable lithium ion batteries. The batteries were used in consumer electronics and electronic vehicles. Other insights on the generic model based on the electron charge transfer are given.

Published
2010

34. Bridgestone lithium additive: a safer battery. (news)

Subjects
Bridgestone Corp. -- Innovations, Tire industry -- Innovations, Lithium cells -- Innovations, Lithium cells -- Materials, Electric vehicles -- Equipment and supplies, Business, Business, international, Engineering and manufacturing industries, Petroleum, energy and mining industries
Abstract

Japanese car tyre maker Bridgestone Corporation has developed an additive for lithium batteries, which makes them incombustible but doesn't impair their performance. Bridgestone's newly developed additive, which is made mainly [...]

Published
2003

35. Altair Reports 'Breakthrough' in Lithium Ion Battery Electrodes

Subjects
Altair Nanotechnologies Inc. -- Research, Altair Nanotechnologies Inc. -- Technology application, Nanotechnology -- Usage, Lithium cells -- Materials, Battery industry -- Research, Battery industry -- Technology application, Technology application, Automobile industry, Business
Abstract

Altair Nanotechnologies, Inc. recently announced it has achieved a 'breakthrough' in lithium ion battery electrode materials, which could help enable a new generation of rechargeable batteries to be introduced into [...]

Published
2005

36. FMC raises Li battery prices

Subjects
FMC Corp. Lithium Div. -- Prices and rates, Lithium -- Prices and rates, Lithium cells -- Materials, Business, Metals, metalworking and machinery industries
Published
1993

37. Battery breakthrough

Author

Houlder, Vanessa

Subjects
Lithium cells -- Materials, Battery industry -- Research, Aluminum -- Usage, Banking, finance and accounting industries, Business, Business, international, Massachusetts Institute of Technology -- Research
Published
1998

Catalog

Books, media, physical & digital resources
See catalog results