Green Car Congress

APRIL 13, 2020

Researchers in Europe, with colleagues from Samsung R&D Institute in Japan, have developed a highly stable Fe 3 O 4 /C composite for use as a conversion electrode in all-solid-state Li-ion batteries. In addition, recently a new chemistry has surfaced, allowing to store more Li + by the so-called conversion mechanism. Resources.

Li-ion 170

Li-ion Conversion Carbon Fiber Batteries 170

Green Car Congress

JANUARY 16, 2015

Researchers from Nanjing Forestry University and the University of Maryland have designed high-performance microfibers by hybridizing two-dimensional (2D) graphene oxide (GO) nanosheets and one-dimensional (1D) nanofibrillated cellulose (NFC) fibers. In addition, 1D NFC fibers can act as ‘lines’ to ‘weave and wrap’ 2D nanosheets together.

Carbon Fiber 150

Carbon Fiber Li-ion Hybrid Carbon 150

Green Car Congress

JULY 12, 2017

million to 22 new cost-shared projects to accelerate the research of advanced battery, lightweight materials, engine emission control technologies, and energy efficient mobility systems (EEMS). Research innovative iron-based materials for high energy cathodes for high energy lithium ion battery technologies. Penn State University Park.

Carbon Fiber 150

Carbon Fiber Li-ion Mercedes GM 150

Green Car Congress

AUGUST 10, 2011

Light-weighting materials : Five projects awarded to accelerate commercial availability of lighter weight vehicles using advanced materials that dramatically reduce vehicle weight while maintaining the highest safety standards. This project will develop a new process that enables low-cost, domestic manufacturing of magnesium.

Carbon Fiber 268

Carbon Fiber Lithium Ion Li-ion Vehicles 268

Green Car Congress

DECEMBER 16, 2010

Such fuels should be currently available, or have the potential to become, commercially practical within the next 10 years. The objective of this AOI is to accelerate the realization of lighter weight vehicle materials made from magnesium and carbon fiber capable of attaining 50% weight reduction of passenger vehicles.

Li-ion 231

Li-ion Carbon Fiber Vehicles Low Cost 231

Green Car Congress

OCTOBER 4, 2009

The third major avenue of cost reduction is the application of mass production technology to the fuel cell stack, the tank, and other components. As an example, Yokoyama used the carbon fiber reinforced polymer (CFRP) hydrogen storage tank. The company is working to develop a low-cost CFRP for a high-pressure hydrogen tank.

2015 315

2015 Toyota Commercial Fuel 315

Green Car Congress

AUGUST 16, 2016

Accelerated Development and Deployment of Low‐Cost Automotive Mg Sheet Components (Area of Interest 3). Magnesium is one of the lightest structural metals available and can reduce the weight of vehicle components by more than 50%. Advances for the Production of Low‐Cost Electric Drive vehicle Motors (Area of Interest 5).

Vehicles 150

Vehicles Plug-in Lithium Ion Universal 150