IBM Analysis Boosts Battery power 500 Venture with New Materials Partners (video)

IBM (NYSE: IBM) today declared that two market leaders -- Asahi Kasei and Main Cup -- will join its Battery power 500 Venture group and collaborate on far-reaching research with the potential to improve the change from power to power as the main automobiles for automobiles.

In 2009, IBM Analysis pioneered a sustainable mobility project to make lithium-air battery technological advancement capable of energizing a family-sized power car for approximately 500 kilometers (800 km) on 1 cost.

As lovers in the Battery power 500 Venture, Asahi Kasei and Main Cup bring decades of materials advancement for the automotive market to the group. They will expand the project's scope and, although the medical and engineering difficulties to its practical implementation are higher than normal, exploring several chemistries at the same time increases the chance of success.

Asahi Kasei, one of Japan's major substance manufactures and a major international provider of separator tissue layer for lithium-ion battery power, will use its encounter in innovative tissue layer technological advancement to make a crucial component for lithium-air battery power.

Central Cup, a major international electrolyte manufacturer for lithium-ion battery power, will use its substance skills in this area to make a new class of water and high-performance additives created to improve lithium-air battery power.

"These new lovers discuss our vision of power resource being crucial materials of building a cleaner, better world, which is far less dependent on oil," said Dr. Winfried Wilcke, IBM's Principle Investigator who initiated the Battery power 500 Venture. "Their compatible encounter, knowledge and commitment to bold advancement in power vehicle battery technological advancement can help us transfer these studies from the lab onto the road."

Most power automobiles can only journey about 100 kilometers before needing to recharge using present-day lithium-ion battery power. This is a significant buffer to power car adoption unless a new battery technological advancement can be developed that is affordable, lightweight, compact and has the capacity to power a typical household car several hundred kilometers or more on 1 cost.

For a car running on present-day lithium-ion battery power to match the range provided by a tank of power, car manufacturers would need a very large battery which would weigh down the car and take up too much space. Lithium-air battery power have higher power solidity than lithium-ion battery power, due to their lighter cathodes and the fact that their main "fuel" is the oxygen readily available in the atmosphere. To popularize power resource, an power solidity ten times greater than that of traditional lithium-ion battery power is needed, and these new lovers to the project can help drive lithium-air technological advancement towards that goal.

New materials progression is essential to ensuring the viability of lithium-air battery technological advancement," said Tatsuya Mori, Director, Executive Managing Officer, Main Cup. "As a long-standing partner of IBM and leader in creating high-performance water for battery power, we're excited to discuss each other's substance and medical skills in a area as exciting as power automobiles."

"We are very focused on addressing environmental difficulties and limitations with diverse technological advancement to build a lighter future. This partnership allows us to explore a new path to creating an improved rechargeable battery efficiency that can not be met with traditional technologies," said Tetsuro Ohta, Head of Advanced Battery power materials Development Center, Asahi Kasei.

This research will take place at IBM Analysis – Almaden in California.

About The Battery power 500 Project

The change from power to power as the main automobiles for automobiles stands to be one of the most essential technological advancement shifts of the first half of the Modern day. Realizing this need, scientists at IBM Research-Almaden started the Battery power 500 Venture last year to make a Lithium-Air battery that could journey 500 kilometers on 1 cost. Utilizing IBM's leadership across technological advancement in chemistry, physics, nanotechnology and supercomputing modeling in both its Almaden and Zurich labs, these studies is also done in conjunction with the other Battery power 500 Venture collaborators, including national labs.