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451142 Aldrich

Lithium tetrachloroaluminate Green Alternative

anhydrous, beads, −10 mesh, 99.99% trace metals basis

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Properties

Related Categories 3: Li, Alternative Energy, Aluminum, Battery Electrolyte Materials, Beaded Materials,
grade   anhydrous
InChI Key   AQLRWYUVWAYZFO-UHFFFAOYSA-J
assay   99.99% trace metals basis
form   beads
greener alternative product characteristics   Design for Energy Efficiency
Learn more about the Principles of Green Chemistry.
particle size   −10 mesh

Description

Packaging

5 g in ampule

Application

A high-energy, new battery system using only inorganic constituents has been designed where Li and LiCoO2 serve as the electrodes in a LiAlCl4-in-SO2 liquid electrolyte. Has been studied for cell performance characteristics and reaction products of LiAlCl4 and LiGaCl4 in a variety of battery systems.

Used in studies of electrochemical cell reactions.

General description

Sigma Life Science is committed to bringing you Greener Alternative Products, which adhere to one or more of The 12 Principles of Greener Chemistry. This product has been enhanced for energy efficiency. Find details here.

Price and Availability

Safety & Documentation

Safety Information

Symbol 
Signal word 
Danger
Hazard statements 
Precautionary statements 
Supplemental Hazard Statements 
Reacts violently with water.
RIDADR 
UN 3260 8 / PGII
WGK Germany 
3
Protocols & Articles

Articles

Electrode Materials for Lithium Ion Batteries

In 2010, the rechargeable lithium ion battery market reached ~$11 billion and continues to grow.1 Current demand for lithium batteries is dominated by the portable electronics and power tool industri...
Kinson C. Kam and Marca M. Doeff
Material Matters, 2012 v7, n4
Keywords: Applications, Atomic absorption spectroscopy, Automotive, Degradations, Electronics, Industries, Ion Exchange, Legal, Oxidations, Precipitation, Purification, Reductions, Renewable energy, Search, Substitutions

Electrolyte Reagents for Lithium-Ion Batteries

Introduction Battery grade electrolytes Solvents and additives Preparation of customized battery grade electrolyte solutions Materials References
Dr. Koji Abe
Advanced Energy Materials R&D Center, Chemicals Company, UBE Industries, Ltd.
Keywords: Acid value, Industries, Solvents

Nanomaterials for Energy Storage in Lithium-ion Battery Applications

Rechargeable Lithium-ion (Li-Ion) battery technology has come a long way since its introduction in the early 1990s. Over the last two decades, they have become the technology of choice for powering p...
Ganesh Venugopal, Andrew Hunt, Faisal Alamgir
Material Matters 2010, 5.2, 42.
Keywords: Adsorption, Antimicrobials, Applications, Automotive, Capabilities, Chemical vapor deposition, Combustion, Condensations, Deposition, Diffraction, Diffusion, Electronics, Formulations, Materials Science, Methods, Microscopy, Nanomaterials, Nanotubes, Precipitation, Reductions, Renewable energy, Scanning electron microscopy, Sol-gel, Support, Tools, Transmission electron microscopy, X-Ray diffraction

Nanostructured Olivine-based Cathode Materials for Lithium-ion Batteries

Vishwanathan Ramar and Palani Balaya* Department of Mechanical Engineering National University of Singapore, Singapore-117576 *Email: mpepb@nus.edu.sg
Vishwanathan Ramar, Palani Balaya
Material Matters, 2016, 11.1, 23
Keywords: Diffraction, Microscopy, Nanomaterials, Oxidations, Redox Reactions, Reductions, Renewable energy, Scanning electron microscopy, Solvents, Substitutions, Transmission electron microscopy, X-Ray diffraction

Olivine-Type Cathode Materials for Lithium-Ion Batteries

Izumi Taniguchi Department of Chemical Engineering Graduate School of Science and Engineering, Tokyo Institute of Technology 12-1, Ookayama-2, Meguro-ku, Tokyo 152-8552, Japan Email: taniguchi.i.aa@m...
Keywords: Atomic absorption spectroscopy, Deposition, Diffraction, Microscopy, Precipitation, Redox Reactions, Reductions, Scanning electron microscopy, Sol-gel, Spectroscopy, Transmission electron microscopy, X-Ray diffraction

Safer High-performance Electrodes, Solid Electrolytes, and Interface Reactions for Lithium-Ion Batteries

Yves J. Chabal, Kyeongjae Cho, and Christopher L. Hinkle* (Roberto C. Longo, K. C. Santosh, Amandeep K. Sra, David E. Arreaga-Salas, and Katy Roodenko; not pictured) Department of Materials Science a...
Keywords: Absorption, Chemical reactions, Deposition, Diffusion, Electronics, Infrared spectroscopy, Lithiations, Materials Science, Oxidations, Solvents, Spectroscopy, transformation

U.S. Department of Energy’s Materials Research for Advanced Lithium Ion Batteries

Increasing fuel costs and concerns about greenhouse gas emissions have spurred the growth in sales of hybrid electric vehicles (HEVs) that carry a battery pack to supplement the performance of the in...
David Howell, Tien Duong, John B. Deppe, Irwin Weinstock
Material Matters 2008, 3.4, 100.
Keywords: Applications, Calculators, Combustion, Diffusion, Methods, Polymerization reactions, Reductions, Solvents, Substitutions

Peer-Reviewed Papers
15

References

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