Carbon, Li-ion, Lithium Air and Store

UK Researchers Developing Rechargeable Lithium-Air Battery; Up to 10X the Capacity of Current Li-ion Cells

Green Car Congress

MAY 18, 2009

Oxygen drawn from the air reacts within the porous carbon to release the electrical charge in this lithium-air battery. Researchers in the UK are developing a rechargeable lithium-air battery that could deliver a ten-fold increase in energy capacity compared to that of currently available lithium-ion cells.

Lithium Air

Lithium Air Li-ion Recharge Batteries

St. Andrews team elucidates behavior of carbon cathodes in Li-air batteries; the importance of the synergy between electrode and electrolyte

Green Car Congress

DECEMBER 28, 2012

Carbon is seen as an attractive potential cathode material for aprotic (non-aqueous) Lithium-air batteries, which are themselves of great interest for applications such as in electric vehicles because of the cells’ high theoretical specific energy. For their study, they cycled carbon cathodes in Li?O

Carbon

Carbon Li-ion Batteries Battery

IBM Almaden Lab Exploring Lithium-Air Batteries for Next-Generation Energy Storage

Green Car Congress

JUNE 24, 2009

General schematic of a lithium-air battery. The team plans to explore rechargeable Lithium-Air systems, which could offer 10 times the energy capacity of lithium-ion systems. Lithium-ion rechargeable (secondary) batteries are based on a pair of intercalation electrodes. Click to enlarge.

Lithium Air

Lithium Air Energy Storage Li-ion San Jose

PNNL team uncovers reaction mechanisms of Li-air batteries; how batteries blow bubbles

Green Car Congress

APRIL 27, 2017

Lithium-air batteries are looked to by many as a very high-energy density next-generation energy storage solution for electric vehicles. However, the technology has several holdups, including losing energy as it stores and releases its charge.The reaction mechanisms are, in general, not well understood. —Luo et al.

Batteries

Batteries Battery Lithium Air Li-ion

China team outlines 5 key areas of future research to realize Li-air batteries

Green Car Congress

MARCH 12, 2012

In an open access paper published in the International Journal of Smart and Nano Materials , researchers from the Changchun Institute of Applied Chemistry, Chinese Academy of Sciences review significant developments and remaining challenges of practical Li–air batteries and the current understanding of their chemistry.

Li-ion

Li-ion Future Batteries Battery

New nanolithia cathodes may address technical drawbacks of Li-air batteries; scalable, cheap and safer Li-air battery system

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JULY 25, 2016

An international team from MIT, Argonne National Laboratory and Peking University has demonstrated a lab-scale proof-of-concept of a new type of cathode for Li-air batteries that could overcome the current drawbacks to the technology, including a high potential gap (>1.2 V) V versus Li/Li +. —Zhu et al.

Cheap

Cheap Li-ion Batteries Battery

ARPA-E Selects 37 Projects for $106M in Funding in Second Round; Electrofuels, Better Batteries and Carbon Capture

Green Car Congress

APRIL 30, 2010

ARPA-E’s first solicitation awarded $151 million to 37 projects aimed at transformational innovations in energy storage, biofuels, carbon capture, renewable power, building efficiency, vehicles, and other areas. This process is less than 1% efficient at converting sunlight to stored chemical energy. Earlier post.) Engineering E.

Carbon

Carbon Batteries Battery Li-ion

Report: VW Group to decide how to proceed with Quantumscape solid state energy storage by July

Green Car Congress

MARCH 24, 2015

The All-Electron Battery stores energy by moving electrons, rather than ions, and uses electron/hole redox instead of capacitive polarization of a double-layer. The all solid-state system would enable high energy density, high power density, and reversibility of a lithium-air battery, according to the claims. Batteries'

Energy Storage

Energy Storage Lithium Air Energy Li-ion

IBM Almaden Researchers Say Li-Air Batteries Offer Promise for Transition to Electrified Transportation, But Face Challenges and Multi-Decade Development Cycle

Green Car Congress

JULY 9, 2010

Four different architectures of Li-air batteries, which all assume the use of lithium metal as the anode. IBM and its partners have launched a multi-year research initiative exploring rechargeable Li-air systems: The Battery 500 Project. Considerations for Li-air systems include: Power density and cost.

Li-ion

Li-ion Transportation Batteries Battery

Researchers Develop Lithium-Water Electrochemical Cell for the Controlled Generation of H2 and Electricity

Green Car Congress

MAY 14, 2010

One compartment contains a metallic lithium electrode (anode) in an organic solvent (1m LiClO 4 in ethylene carbonate/dimethyl carbonate), while the other contains an aqueous electrolyte solution (LiNO 3 /H 2 O) with a carbon-based hydrogen generation electrode (cathode). sea water) by using sunlight. Haoshen Zhou.

Water

Water Lithium Ion Li-ion Hydrogen

IBM releases fifth annual Next Five in Five list of near-term significant innovations; personalized routing for commuting/transportation makes the cut

Green Car Congress

DECEMBER 29, 2010

Also on the list of five is the arrival of advanced batteries, including air batteries (e.g., Lithium air), but targeted initially at small devices. Batteries today have a number of problems, chiefly, the heavy metal-oxides used inside the battery greatly limit the amount of energy it can store, IBM notes.

Personal

Personal Transportation Water Batteries

EV Driven

UK Researchers Developing Rechargeable Lithium-Air Battery; Up to 10X the Capacity of Current Li-ion Cells

St. Andrews team elucidates behavior of carbon cathodes in Li-air batteries; the importance of the synergy between electrode and electrolyte

IBM Almaden Lab Exploring Lithium-Air Batteries for Next-Generation Energy Storage

PNNL team uncovers reaction mechanisms of Li-air batteries; how batteries blow bubbles

China team outlines 5 key areas of future research to realize Li-air batteries

New nanolithia cathodes may address technical drawbacks of Li-air batteries; scalable, cheap and safer Li-air battery system

ARPA-E Selects 37 Projects for $106M in Funding in Second Round; Electrofuels, Better Batteries and Carbon Capture

Report: VW Group to decide how to proceed with Quantumscape solid state energy storage by July

IBM Almaden Researchers Say Li-Air Batteries Offer Promise for Transition to Electrified Transportation, But Face Challenges and Multi-Decade Development Cycle

Researchers Develop Lithium-Water Electrochemical Cell for the Controlled Generation of H2 and Electricity

IBM releases fifth annual Next Five in Five list of near-term significant innovations; personalized routing for commuting/transportation makes the cut

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