2010, Low Cost, Polymer and Resource

Berkeley Lab scientists generate low-cost, hybrid thermoelectric materials

Green Car Congress

NOVEMBER 6, 2010

Scientists at Lawrence Berkeley National Laboratory (Berkeley Lab) have constructed a low-cost, nanoscale composite hybrid thermoelectric material by wrapping a polymer that conducts electricity around a nanorod of tellurium—a metal coupled with cadmium in today’s most cost-effective solar cells. See, Joseph P.

Low Cost

Low Cost Hybrid Polymer Waste

DaniMer Scientific and Myriant form strategic alliance; bio-succinic acid for production of bio-based polymers

Green Car Congress

MARCH 29, 2012

As part of the alliance, DaniMer will utilize Myriant’s bio-succinic acid for the production of high-performance, bio-based polymers used to make a broad range of products. Myriant utilizes its technology platform to develop renewable chemicals utilizing low-cost sugars.

Polymer

Polymer Davis Production Louisiana

Teijin developing non-platinum metal carbon alloy catalyst suited to mass production for fuel cells

Green Car Congress

NOVEMBER 11, 2014

Teijin Limited is developing a non-platinum carbon alloy catalyst (CAC) for the cathode oxygen reduction reaction (ORR) in polymer electrolyte fuel cells. Less expensive and more readily available than platinum, PAN enables the catalyst to be produced at reduced cost and in higher volumes. —Chai et al. 2010.01.012. 2010.01.012.

Carbon

Carbon Fuel Polymer Production

Cornell spin-off lithium-sulfur battery company NOHMs to locate in Lexington, KY

Green Car Congress

SEPTEMBER 7, 2013

Founded in October 2010, NOHMs Technologies has developed a battery that is based on lithium-sulfur chemistry. In April 2013, the company was awarded a $500,000 Phase II SBIR Award from the NSF to scale a novel low-cost manufacturing process for long-life sulfur cathode composite materials. Technology. Batteries'

Lithium Sulfur

Lithium Sulfur Companies Kentucky Lithium Ion

Yeast and plant fatty acids produce durable recyclable plastic; conversion into biodiesel

Green Car Congress

DECEMBER 9, 2010

Like all plastics, the new material is a polymer—a large molecule comprising smaller, repeating units called monomers. The units are called omega-hydroxyfatty acids, and when strung together to form a polymer, they can produce a biologically friendly plastic. Gross (2010) Biosynthesis of Monomers for Plastics from Renewable Oils.

Conversion

Conversion Polymer Oil New York

STFC Rutherford Appleton Lab spin-off seeking to develop and commercialize a novel solid-state hydrogen storage technology; transportation applications

Green Car Congress

JANUARY 30, 2011

Example of micro fibers produced with 20 wt % AB (ammonia borane) in water as core solution, showing smooth (nonporous) and cylindrical (noncollapsed) fibers; from a 2010 paper by the scientific team. Cella’s current composite material uses ammonia borane (NH 3 BH 3 ) as the hydride and polystyrene as the polymer nano-scaffold.

Hydrogen

Hydrogen Commercial Transportation Polymer

SK Energy and USABC to Evaluate SK Li-ion Batteries for Electric Vehicles

Green Car Congress

APRIL 9, 2010

SK Energy uses a lithium manganese oxide cathode material, mixing in NMC material for stabilization; a surface-modified graphite on the anode; a gel polymer electrolyte; and a ceramic-coated proprietary SK separator featuring low shrinkage and high heat resistance. SK Energy Investor Presentation (April 2010). Earlier post.).

Li-ion

Li-ion Electric Vehicles Lithium Ion Energy

BASF and CSM Announce Joint Production Development of Bio-based Succinic Acid

Green Car Congress

SEPTEMBER 30, 2009

Both partners have been working on the development of the industrial fermentation and down-stream processing of bio-based succinic acid and will start production of commercial quality and volumes in the second quarter of 2010. Furthermore, low cost succinic acid has high potential as a platform chemical and its downstream products.

Production

Production 2004 Low Cost Polymer

Cenovus Energys Total Bitumen Initially-in-Place Estimated at 137B Barrels; Oilsands Production Expected to Increase 5-Fold to 300,000 bpd by 2019

Green Car Congress

JUNE 17, 2010

The BIIP assessment includes the bitumen production, reserves and economic contingent resources previously reported as well as an estimate of Cenovus’s share of all other bitumen on the company’s lands. The company plans to reinvigorate efforts to increase production from its substantial conventional oil resource.

2019

2019 Production Energy Oil

DOE issues $10M incubator FOA for batteries, power electronics, engines, materials, fuels and lubricants

Green Car Congress

JANUARY 18, 2014

year plans and roadmaps, with a concomitant focus of the majority of its resources on a limited number of “highest probability of success” pathways/approaches to ensure that the program initiatives are supported at a critical mass (both in terms of dollars and time) for maximum impact. per pound of weight saved, which could include very low?cost

Carbon Fiber

Carbon Fiber Engine Battery Powered Fuel

DOE issues 4 funding opportunities totaling $78M for advanced biofuels, bioenergy and bioproducts

Green Car Congress

MAY 4, 2018

Applications are invited that address early stage R&D challenges that are best addressed with the resources (equipment and personnel) based within the Agile BioFoundry consortium. These resources thus offer potential opportunity for conversion into biofuels, bioproducts, and biopower. model host organisms with industrially?

Waste

Waste Renewable Conversion Carbon

Layered Graphene Sheets Could Be A Promising Hydrogen Storage Material

Green Car Congress

MARCH 17, 2010

The easy synthesis, low cost and non-toxicity of graphene make this material a promising candidate for gas storage applications. Resources. Ford and T.Yildirim (2010) Gas adsorption properties of graphene-oxide-frameworks and nanoporous benzene-boronic acid polymers. March 18, 2010. Burress, J. Simmons, J.

Hydrogen

Hydrogen Store Portland Pennsylvania

Keasling: metabolic engineering will soon rival and potentially eclipse synthetic organic chemistry; designer cells for fuels and chemicals

Green Car Congress

DECEMBER 4, 2010

Jay Keasling discusses the potential of metabolic engineering for the microbial production from simple, readily available, inexpensive starting materials of a large number of chemicals that are currently derived from nonrenewable resources or limited natural resources. Earlier post.). —Jay Keasling. —Jay Keasling.

Engine

Engine Design Fuel Polymer

EV Driven

Berkeley Lab scientists generate low-cost, hybrid thermoelectric materials

DaniMer Scientific and Myriant form strategic alliance; bio-succinic acid for production of bio-based polymers

Teijin developing non-platinum metal carbon alloy catalyst suited to mass production for fuel cells

Cornell spin-off lithium-sulfur battery company NOHMs to locate in Lexington, KY

Yeast and plant fatty acids produce durable recyclable plastic; conversion into biodiesel

STFC Rutherford Appleton Lab spin-off seeking to develop and commercialize a novel solid-state hydrogen storage technology; transportation applications

SK Energy and USABC to Evaluate SK Li-ion Batteries for Electric Vehicles

BASF and CSM Announce Joint Production Development of Bio-based Succinic Acid

Cenovus Energys Total Bitumen Initially-in-Place Estimated at 137B Barrels; Oilsands Production Expected to Increase 5-Fold to 300,000 bpd by 2019

DOE issues $10M incubator FOA for batteries, power electronics, engines, materials, fuels and lubricants

DOE issues 4 funding opportunities totaling $78M for advanced biofuels, bioenergy and bioproducts

Layered Graphene Sheets Could Be A Promising Hydrogen Storage Material

Keasling: metabolic engineering will soon rival and potentially eclipse synthetic organic chemistry; designer cells for fuels and chemicals

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