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Latest update: 02/05/2020 15:00:40

GS Alliance Co., Ltd.

R&D of state-of-the-art technologies in the energy and environmental fields

We conduct R&D of state-of-the-art technologies in the energy and environmental fields. This includes biodegradable plastics, cellulose nanofibers, next-generation secondary batteries (all-solid-state lithium-ion batteries, aluminum batteries, etc.), bioethanol from non-edible plants, quantum dots, and Metal-Organic Frameworks.

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Sales Pitch

Biodegradable plastic
Starch-based biodegradable plastic
An entirely naturally derived biodegradable plastic material made from starch (zero petroleum). Composite materials with cellulose nanofibers are also available. 
Biodegradable plastic made from paper, waste paper, and recycled paper
An entirely naturally derived biodegradable plastic material made from paper, waste paper, and recycled paper (zero petroleum). Composite materials with cellulose nanofibers are also available. 
Biodegradable plastic made from wood, plants, and waste wood
An entirely naturally derived biodegradable plastic material made from wood, plants, and waste wood (zero petroleum). Composite materials with cellulose nanofibers are also available.
Cellulose nanofibers and plastic composite materials
Cellulose nanofibers and various general-purpose plastic composite materials
This material is a composite of cellulose nanofiber and various general-purpose plastics. It has better properties in terms of tensile strength, bending strength, and elastic modulus, among others. 
Composite material of cellulose nanofiber and various biodegradable plastics
This material is a composite of cellulose nanofiber and various biodegradable plastics. It has better properties in terms of tensile strength, bending strength, and elastic modulus, among others.
Composite materials of cellulose nanofiber and various waste plastics
This material is a composite of cellulose nanofiber and various waste plastics. The strength of waste plastic deteriorates due to long-term use, but this composite material has better properties in terms of tensile strength, bending strength, and elastic modulus, among others. 
Synthesis, commissioned synthesis, and commissioned measurement of lithium-ion battery electrodes, and solid electrolytes
Synthesis of lithium-ion battery electrodes, and solid electrolytes
Our company synthesizes and sells positive electrodes and solid electrolytes for lithium-ion batteries. 
Commissioned synthesis and measurement of materials for lithium-ion batteries
We synthesize and measure the necessary materials for lithium-ion batteries. We measure battery capacity with charging/discharging curves, and also measure various electrochemical characteristics such as cyclic voltammetry and impedance on a consignment basis. 

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Kansai Head Office, SMRJ
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