Cost Of, Li-ion, Low Cost and Sodium

New long-duration, extended capacity Na-Al battery design for grid storage

Green Car Congress

MARCH 2, 2023

Researchers led by the Department of Energy’s Pacific Northwest National Laboratory (PNNL) have extended the capacity and duration of sodium-aluminum batteries. The new sodium-based molten salt battery uses two distinct reactions. h is achieved with an estimated raw active materials cost of $7.02 of peak charge capacity.

Molten Salt

Molten Salt Grid Design Sodium

Stanford team develops sodium-ion battery with performance equivalent to Li-ion, but at much lower cost

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OCTOBER 10, 2017

Stanford researchers have developed a sodium-ion battery (SIB) that can store the same amount of energy as a state-of-the-art lithium ion, at substantially lower cost. Thus, further research is required to find better sodium host materials. The sodium salt makes up the cathode; the anode is made up of phosphorous.

Sodium

Sodium Li-ion Battery Batteries

Antimony nanocrystals as high-capacity anode materials for both Li-ion and Na-ion batteries

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MARCH 19, 2014

The nanocrystals possess high and similar Li-ion and Na-ion charge storage capacities of 580?640 85% of the low-rate value, indicating that rate capability of Sb nanostructures can be comparable to the best Li-ion intercalation anodes and is so far unprecedented for Na-ion storage. 640 mAh g ?1

Li-ion

Li-ion Sodium Battery Batteries

New high energy, highly stable cathode for sodium-ion batteries

Green Car Congress

SEPTEMBER 16, 2013

F 0.7 , for sodium-ion (Na-ion) batteries (NIBs). This new material provides an energy density of 600 Wh kg –1 , the highest value among Na-ion cathodes. Recently, attention has been refocused on room-temperature Na-ion batteries (NIBs) as a low-cost alternative technology as compared to LIBs.

Sodium

Sodium Li-ion Energy Battery

Univ. of Maryland team develops promising sodium-ion cathode material: FePO4/nanotube composite

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OCTOBER 24, 2012

Researchers at the University of Maryland have developed a nanocomposite material of amorphous, porous FePO 4 nanoparticles electrically wired by single-wall carbon nanotubes as a potential cathode material for sodium-ion batteries (SIBs). V lower than that of the corresponding Li voltages. eld of Na-ion batteries.

Sodium

Sodium Maryland Li-ion Lithium Ion

Researchers find tin nanoparticles promising electrode material for sodium-ion batteries

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OCTOBER 26, 2012

Tin (Sn) shows promise as a robust electrode material for rechargeable sodium-ion (Na-ion) batteries, according to a new study by a team from the University of Pittsburgh and Sandia National Laboratory. Rechargeable Na-ion batteries work on the same basic principle as Li-ion batteries—i.e.,

Sodium

Sodium Li-ion Ni-Li Battery

Faraday Institution to award up to £55M to five consortia for energy storage research

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SEPTEMBER 5, 2019

This expanded portfolio has the dual aims of improving current generation lithium ion batteries as well as longer horizon materials discovery and optimisation projects to support the commercialisation of next-generation batteries. Next generation lithium ion cathode materials. Next generation sodium ion batteries–NEXGENNA.

Energy Storage

Energy Storage Li-ion Lithium Ion Energy

Haldor Topsøe acquires 18% of Na-ion battery company Faradion Ltd

Green Car Congress

FEBRUARY 12, 2014

Haldor Topsøe A/S, a global market leader in catalysis and related process technologies, recently acquired 18% of the shares in sodium-ion battery technology company Faradion Ltd, based in Sheffield, UK. Other partners in the investment included Finance Yorkshire’s Seedcorn Fund and Rising Stars Growth Fund II LP.

Sodium

Sodium Li-ion Companies Battery

PNNL study outlines requirements for grid storage, reviews four electrochemical energy storage systems: vanadium redox flow, Na-beta, Li-ion and lead-carbon

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MARCH 15, 2011

published in the ACS journal Chemical Reviews , reviews in detail four stationary storage systems considered the most promising candidates for electrochemical energy storage: vanadium redox flow; sodium-beta alumina membrane; lithium-ion; and lead-carbon batteries. Sodium-beta alumina membrane battery. —Yang et al.

Li-ion

Li-ion Energy Storage Grid Carbon

CalSEED awards $4.2M to early-stage clean energy innovations

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OCTOBER 15, 2020

Cyclonatix, Inc is developing an industrial-sized motor/controller to operate with either DC or AC power sources, for applications in electric vehicles, solar-powered pumps, HVAC&R, gas compressors, and other commercial and industrial machines which require high efficiency, variable speed/torque, and low cost. is developing a?rechargeable

Clean

Clean Cleaning Energy Solar

PNNL team develops new localized high-concentration electrolyte for high-voltage Li-metal batteries

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MARCH 27, 2018

metal anodes with high Coulombic efficiency (99.5%) and excellent capacity retention (>80% after 700 cycles) of Li||LiNi 1/3 Mn 1/3 Co 1/3 O 2 batteries. Conventional electrolytes used in lithium-ion batteries are not suitable for lithium-metal batteries because they will lead to dendritic growth and very low Coulombic ef?

Li-ion

Li-ion Battery Batteries Lithium Ion

ARPA-E awards $43M to 19 energy storage projects to advance electric vehicle and grid technologies

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AUGUST 2, 2012

measurement capabilities and lowering the cost of electric. Temperature Regulation for Lithium-Ion Cells. environment of a lithium-ion battery in real-time. Strain Estimation Technology for Lithium-Ion Batteries. tracking physical expansion and contraction of lithium-ion. Advanced Sodium Battery. Laboratory.

Energy Storage

Energy Storage Grid Electric Vehicles Energy

UK Technology Strategy Board Awards More Than 12M to 22 Projects to Speed Up Development of Low-Carbon Technology for Vehicles; Includes Gas Turbine Range Extender and Li-S Battery Cells

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JANUARY 22, 2010

The small size, multi-fuel capability and potential low cost of the ULRE could also help speed adoption of electric vehicles. Development of high energy Li-S prototype battery cells. These battery cells are expected to have improved cycle life stability and safety features superior to those of Li-ion batteries.

Carbon

Carbon Li-ion Downsizing Gas

ARPA-E Awards $151M to 37 Projects for Transformative Energy Research

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OCTOBER 26, 2009

Eagle Picher, in partnership with the Pacific Northwest National Laboratory, will develop a new generation of high energy, low cost planar liquid sodium beta batteries for grid scale electrical power storage applications. Low Cost, High Energy and Power Density, Nanotube-Enhanced Ultracapacitors.

Energy

Energy Grant Low Cost Li-ion

EV Driven

New long-duration, extended capacity Na-Al battery design for grid storage

Stanford team develops sodium-ion battery with performance equivalent to Li-ion, but at much lower cost

Antimony nanocrystals as high-capacity anode materials for both Li-ion and Na-ion batteries

New high energy, highly stable cathode for sodium-ion batteries

Univ. of Maryland team develops promising sodium-ion cathode material: FePO4/nanotube composite

Researchers find tin nanoparticles promising electrode material for sodium-ion batteries

Faraday Institution to award up to £55M to five consortia for energy storage research

Haldor Topsøe acquires 18% of Na-ion battery company Faradion Ltd

PNNL study outlines requirements for grid storage, reviews four electrochemical energy storage systems: vanadium redox flow, Na-beta, Li-ion and lead-carbon

CalSEED awards $4.2M to early-stage clean energy innovations

PNNL team develops new localized high-concentration electrolyte for high-voltage Li-metal batteries

ARPA-E awards $43M to 19 energy storage projects to advance electric vehicle and grid technologies

UK Technology Strategy Board Awards More Than 12M to 22 Projects to Speed Up Development of Low-Carbon Technology for Vehicles; Includes Gas Turbine Range Extender and Li-S Battery Cells

ARPA-E Awards $151M to 37 Projects for Transformative Energy Research

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