Energy, Hybrid, Ni-Li and Recharge

University of Sydney team advances rechargeable zinc-air batteries with bimetallic oxide–graphene hybrid electrocatalyst

Green Car Congress

AUGUST 16, 2017

University of Sydney team advances rechargeable zinc-air batteries with bimetallic oxide–graphene hybrid electrocatalyst. Cheaper to produce than lithium-ion batteries, they can also store more energy (theoretically five times more than that of lithium-ion batteries), are much safer, and are more environmentally friendly.

Zinc Air

Zinc Air Recharge Universal Ni-Li

Novel Concentration-Gradient Shell Li-ion Cathode Material Delivers High Capacity and Excellent Cycling Stability

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AUGUST 20, 2010

(a) SEM image and (b) cross-sectional images of Li[Ni 0.67 A team from Hanyang University (Korea), Iwate University (Japan) and Argonne National Laboratory in the US synthesized a novel Li[Ni 0.67 The discharge capacity of the concentration-gradient Li[Ni 0.67 and Li[(Ni 0.8 The Li[Ni 0.67

Li-ion

Li-ion Ni-Li 2009 Lithium Ion

Argonne and Hanyang University Develop New High-Energy Cathode Material With Improved Thermal Stability; Good Fit for PHEV Applications

Green Car Congress

APRIL 7, 2009

SEM of Li[Ni 0.64 Mn 0.18 ]O 2 particle with concentration gradient of Ni, Co, and Mn contents. The results, say the researchers, suggest that the cathode material could enable production of batteries that meet the demanding performance and safety requirements of plug-in hybrid electric vehicles. From Sun et al.

Ni-Li

Ni-Li Universal Li-ion PHEV

ARPA-E RANGE: $20M for robust transformational energy storage systems for EVs; 3x the range at 1/3 the cost

Green Car Congress

FEBRUARY 17, 2013

RANGE is focused on supporting chemistry and system concepts in energy storage with robust designs in one or both of: Category 1: Low-cost, rechargeable energy storage chemistries and architectures with robust designs; Category 2: Multifunctional energy storage designs. Ceramic and other solid electrolyte batteries.

Energy Storage

Energy Storage Range Energy Nickel Metal Hydride

AIST Develops New Cobalt-free, Mixed Oxide Cathode Material with Iron for Li-ion Batteries; Lower Cost with Good Performance

Green Car Congress

AUGUST 19, 2009

have developed two cobalt-free mixed metal oxide cathode materials for Li-ion batteries containing 20% iron: Li 1+x (Fe 0.2 Mn 0.4 ) 1-x O 2 and Li 1+x (Fe 0.2 Researchers at Japan’s National Institute of Advanced Industrial Science and Technology (AIST), in collaboration with Tanaka Chemical Corp., Mn 0.6 ) 1-x O 2.

Li-ion

Li-ion Ni-Li Batteries Battery

Faradion demonstrates proof-of-concept sodium-ion electric bike

Green Car Congress

MAY 15, 2015

Although lithium-ion batteries are currently the predominant battery technology in electric and hybrid vehicles, as well as other energy storage applications, sodium-ion could offer significant cost, safety and sustainability benefits. Faradion’s sodium-ion cells deliver a specific energy of more than 140 Wh/kg. Earlier post.).

Sodium

Sodium Concept Li-ion Lithium Ion

Hybrid biomass flow battery stores electricity and produces valuable chemicals at the same time

Green Car Congress

JUNE 27, 2023

Rechargeable batteries store electricity in their electrode materials, while redox flow batteries use chemicals stored in tanks attached to the electrodes. Researchers have now developed a battery system based on a hybrid cell, which not only stores and provides electricity but also produces valuable chemicals in a flow system.

Store

Store Nickel Metal Hydride Ni-Li Hybrid

Amorphous titanium dioxide nanotube anodes for sodium-ion batteries show ability to self-improve specific capacity

Green Car Congress

NOVEMBER 3, 2011

They attributed this as being likely due to the prohibitively large ionic radius of the sodium ion (1.02 Å) as compared to the Li ion (0.76 Å); insertion of Na ion therefore requires large distortion of the metal oxide lattice, which would require unacceptably elevated temperatures not realistic for the operation of batteries.

Sodium

Sodium Li-ion Ni-Li Batteries

Researchers at Japans AIST Propose a Rechargeable Ni-Li Battery with Hybrid Electrolyte; Ultrahigh Theoretical Energy Density Plus High Power Potential

Green Car Congress

OCTOBER 6, 2009

Key components, cell voltage, and cell capacity of Li-ion battery (a), Ni-MH battery (b), and the proposed Ni-Li battery (c). Credit: ACS, Li et al. The proposed Ni-Li battery offers both a high cell voltage (3.49 Click to enlarge. V due to the limitation of aqueous electrolyte. Earlier post.].

Ni-Li

Ni-Li Recharge Li-ion NiMH

BASF to Commercialize Argonne Li-ion Composite Cathode Material; Seeks Funds for Plant in Ohio

Green Car Congress

JUNE 5, 2009

Prashant Chintawar, Senior Manager of BASF Future Business NA, but does include formulations from the Argonne patented xLi 2 MnO 3 ·(1-x)LiMO 2 (M= Mn, Ni, Co) structures (also called NMC). and a rechargeable capacity of up to 250 mAh g -1 over the same window. Argonne also licensed these composite materials to Toda Kogyo Corp.

Li-ion

Li-ion Ohio Lithium Ion Commercial

DOE seeking comment on draft $50M solicitation for new projects over 11 areas of interest to improve vehicle performance and decrease fuel consumption

Green Car Congress

FEBRUARY 2, 2013

The US Department of Energy (DOE) Vehicle Technology Program is seeking public comment on the draft of an upcoming solicitation ( DE-FOA-0000793 ) totaling more than $50 million for new research projects that will develop advanced technologies to improve vehicle performance and increase fuel economy.

Li-ion

Li-ion Fuel Vehicles Lithium Ion

Penn State team devises solution for fast charging of Li-ion batteries at cold temperatures

Green Car Congress

JULY 13, 2018

Fast charging is seen as a solution for range and recharging time issues for EVs. Now, a team from Penn State has devised an approach that enables 15-min fast charging of Li-ion batteries in any temperatures (even at ? at 0 °C to prevent lithium plating, which explains the long recharge time of today’s EVs at low temperatures.

Li-ion

Li-ion Ni-Li Charging Batteries

Study finds nanoparticle NMC material used in Li-ion batteries harms key soil bacterium

Green Car Congress

FEBRUARY 4, 2016

The study by researchers at the University of Wisconsin—Madison and the University of Minnesota is an early signal that the growing use of the new nanoscale materials used in the rechargeable batteries that power portable electronics and electric and hybrid vehicles may have unforeseen environmental consequences. —Hang et al.

Li-ion

Li-ion Ni-Li Lithium Ion Batteries

The difference between lithium iron phosphate and lithium battery

Setec Powerr

DECEMBER 13, 2022

Large electric vehicles: buses, electric cars, hybrid vehicles, etc. Energy storage equipment for solar and wind power generation. High energy comparison. It has a high storage energy density, has reached 460-600Wh / kg, and is about 6-7 times the lead-acid batteries. New energy storage power. Scope of use.

Lithium Ion

Lithium Ion Batteries Battery Li-ion

Why Warren Buffett is investing in electric car company BYD - Apr. 13, 2009

Tony Karrer Delicious EVdriven

APRIL 16, 2009

MidAmericans David Sokol, BYDs Wang, and company advisor Li Lu flew with Sokol from Detroit to Omaha so that Wang could meet Buffett in person. " This time Buffett asked another trusted partner, David Sokol, chairman of a Berkshire-owned utility company called MidAmerican Energy, to travel to China and take a closer look at BYD.

BYD

BYD 2009 Companies Electric Cars

EV Driven

University of Sydney team advances rechargeable zinc-air batteries with bimetallic oxide–graphene hybrid electrocatalyst

Novel Concentration-Gradient Shell Li-ion Cathode Material Delivers High Capacity and Excellent Cycling Stability

Argonne and Hanyang University Develop New High-Energy Cathode Material With Improved Thermal Stability; Good Fit for PHEV Applications

ARPA-E RANGE: $20M for robust transformational energy storage systems for EVs; 3x the range at 1/3 the cost

AIST Develops New Cobalt-free, Mixed Oxide Cathode Material with Iron for Li-ion Batteries; Lower Cost with Good Performance

Faradion demonstrates proof-of-concept sodium-ion electric bike

Hybrid biomass flow battery stores electricity and produces valuable chemicals at the same time

Amorphous titanium dioxide nanotube anodes for sodium-ion batteries show ability to self-improve specific capacity

Researchers at Japans AIST Propose a Rechargeable Ni-Li Battery with Hybrid Electrolyte; Ultrahigh Theoretical Energy Density Plus High Power Potential

BASF to Commercialize Argonne Li-ion Composite Cathode Material; Seeks Funds for Plant in Ohio

DOE seeking comment on draft $50M solicitation for new projects over 11 areas of interest to improve vehicle performance and decrease fuel consumption

Penn State team devises solution for fast charging of Li-ion batteries at cold temperatures

Study finds nanoparticle NMC material used in Li-ion batteries harms key soil bacterium

The difference between lithium iron phosphate and lithium battery

Why Warren Buffett is investing in electric car company BYD - Apr. 13, 2009

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