Battery, Charging, Low Cost and Ni-Li

PNNL: single-crystal nickel-rich cathode holds promise for next-generation Li-ion batteries

Green Car Congress

DECEMBER 11, 2020

High-energy nickel (Ni)–rich cathode will play a key role in advanced lithium (Li)–ion batteries, but it suffers from moisture sensitivity, side reactions, and gas generation. We observe reversible planar gliding and microcracking along the (003) plane in a single-crystalline Ni-rich cathode. —Bi et al.

Li-ion

Li-ion Ni-Li Lithium Ion Batteries

New aqueous rechargeable lithium battery shows good safety, high reliability, high energy density and low cost; another post Li-ion alternative

Green Car Congress

MARCH 8, 2013

Schematic illustration of the aqueous rechargeable lithium battery (ARLB) using the coated lithium metal as anode, LiMn 2 O 4 as cathode and 0.5 mol l -1 Li 2 SO 4 aqueous solution as electrolyte. mol l -1 Li 2 SO 4 aqueous solution as electrolyte, an ARLB is built up. Wang et al. Click to enlarge. —Wang et al.

Li-ion

Li-ion Low Cost Recharge Ni-Li

New high-voltage electrolyte additive supports high energy density and stability in LMNC Li-ion battery; 2x energy density over LiCoO2

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DECEMBER 18, 2014

Korea) has developed a novel high-voltage electrolyte additive, di-(2,2,2 trifluoroethyl)carbonate (DFDEC), for use with the promising lithium-rich layered composite oxide high-energy cathode material xLi 2 MnO 3 ·(1-x)LiMO 2 (M = Mn, Ni, Co). O 2 (Li 1.2 Mn 0.525 Ni 0.175 Co 0.1 O 2 (Li 1.2 Mn 0.525 Ni 0.175 Co 0.1

Li-ion

Li-ion Ni-Li Energy Lithium Ion

Researchers demonstrate high-capacity Mn-rich Li-ion cathodes; a design pathway away from cobalt and nickel

Green Car Congress

APRIL 16, 2018

Researchers led by a team at UC Berkeley have demonstrated high-capacity manganese-rich cathodes for advanced lithium-ion batteries. On one end of this compositional spectrum, LiCoO 2 dominates the electronics sector, whereas Ni-rich materials are of interest for the automotive sector. —Lee et al. V, 20 mA g ?

Li-ion

Li-ion Ni-Li Design Lithium Ion

U Akron team develops Mn-based high performance anode for Li-ion batteries

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MAY 28, 2018

Researchers at the University of Akron have developed hierarchical porous Mn 3 O 4 /C nanospheres as anode materials for Li-ion batteries. mA/g), excellent ratability (425 mAh/g at 4 A/g), and extremely long cycle life (no significant capacity fading after 3000 cycles at 4A/g) as an anode in a Li-ion battery. Li/Li + ).

Li-ion

Li-ion Ni-Li Batteries Battery

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. Zinc-air batteries are powered by zinc metal and oxygen from the air. Zinc-air batteries are powered by zinc metal and oxygen from the air. Other two amorphous bimetallic, Ni 0.4 O x and Ni 0.33

Zinc Air

Zinc Air Recharge Universal Ni-Li

RIKEN team develops high-performance lithium-iodine battery system with higher energy density than conventional Li-ion

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JULY 8, 2013

The working concept of I3 – /I – redox reaction in the aqueous Li-I 2 battery. A team from Japan’s RIKEN, led by Hye Ryung Byon, has developed a lithium-iodine (Li-I 2 ) battery system with a significantly higher energy density than conventional lithium-ion batteries. Zhao et al. Click to enlarge.

Li-ion

Li-ion Ni-Li Energy Batteries

Sulfur nanodots on nickel foam as high-performance Li-S cathode materials; carbon- and binder-free

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JANUARY 3, 2015

A team at Nankai University in China has devised high-performance Li-sulfur battery cathode materials consisting of sulfur nanodots (2 nm average) directly electrodeposited on flexible nickel foam; the cathode materials incorporate no carbon or binder. However, the electrochemical inertness of bulk sulfur in the cathode of Li?

Ni-Li

Ni-Li Carbon Batteries Battery

Beijing, Argonne researchers develop new solid-state Li-ion battery; glassy nanocomposite electrolyte with ILs

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FEBRUARY 11, 2016

In … solid-state LIBs [lithium-ion batteries], one important component that needs to be improved to make it more suitable for high performance applications is the electrolyte material. Such solid composite electrolytes also have been previously shown to reduce lithium dendrite formation and proliferation in lithium metal batteries.

Li-ion

Li-ion Ni-Li Batteries Battery

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

Update on Select Argonne Lab Activity with HEV and PHEV Li-ion Batteries

Green Car Congress

FEBRUARY 17, 2009

Khalil Amine, Senior Scientist and Manager of Argonne National Laboratory’s advanced Lithium Battery Program, provided an update on some of the activities at Argonne on advanced high-power systems for hybrid-electric (HEV) and high-energy systems for plug-in hybrid electric vehicles (PHEV). XRD of new Argonne nano-Li 4 Ti 5 O 12 spinel.

Li-ion

Li-ion PHEV Ni-Li Lithium Titanate

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

Green Car Congress

MAY 15, 2015

E-bike powered by Faradion prototype Na-ion battery pack. For the proof-of-concept, the cells were manufactured to be larger than necessary to avoid unnecessary costs and lengthy manufacturing processes at this early stage. Sodium-ion intercalation batteries—i.e., Sodium-ion intercalation batteries—i.e.,

Sodium

Sodium Concept Li-ion Lithium Ion

Ultrathin LiMn2O4 Nanowire Cathode Materials for Higher Li-ion Power Densities for HEV and EV Applications

Green Car Congress

SEPTEMBER 4, 2010

Discharge curves at different rates after charging at 1C. A team of researchers from the Korea Advanced Institute of Science and Technology, Università degli Studi di Milano-Bicocca (Italy), and Stanford University have synthesized ultrathin LiMn 2 O 4 nanowires for use as a Li-ion cathode material offering high power densities.

Li-ion

Li-ion Ni-Li Lithium Ion Power

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

The Robust Affordable Next Generation EV-Storage (RANGE) program’s goal is to enable a 3X increase in electric vehicle range (from ~80 to ~240 miles per charge) with a simultaneous price reduction of > 1/3 (to ~ $30,000). If successful, these vehicles will provide near cost and range parity to gasoline-powered ICE vehicles, ARPA-E said.

Energy Storage

Energy Storage Range Energy Nickel Metal Hydride

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 FOA contains a total of 11 areas of interest (AOIs) in the general areas of advanced lightweighting and propulsion materials; advanced battery development; power electronics; advanced heating, ventilation, air conditioning systems; and fuels and lubricants. High Temperature DC Bus Capacitor Cost Reduction & Performance Improvements.

Li-ion

Li-ion Fuel Vehicles Lithium Ion

Hanyang/BMW team develops high-energy density Li-ion battery with carbon-nanotube-Si composite anode and NCM concentration gradient cathode

Green Car Congress

MAY 20, 2016

Researchers from Hanyang University in Korea and the BMW Group have developed a new fully operational, practical Li-ion rechargeable battery combining high energy density with excellent cycle life. g cm -3 ; a two-sloped full concentration gradient (TSFCG) Li[Ni 0.85 O 2 , Li[Ni 0.85 O 2 (NCM) and Li[Ni 0.8

Li-ion

Li-ion Ni-Li Carbon BMW

BNL-led team finds electrolyte additive enables stable high-voltage cycling of nickel-rich layered cathodes

Green Car Congress

JUNE 2, 2022

This research was conducted as part of the DOE-sponsored Battery500 Consortium, which is led by DOE’s Pacific Northwest National Laboratory (PNNL) and is working to increase the energy density of lithium batteries for electric vehicles significantly. One of the main issues is particle cracking during high-voltage charge-discharge cycles.

Ni-Li

Ni-Li Energy Storage Batteries Battery

High-capacity GQD-coated VO2 nanoarray electrodes for high-performance Li- and Na-ion batteries

Green Car Congress

DECEMBER 29, 2014

Researchers from Nanyang Technical University (NTU) in Singapore have shown high-capacity, high-rate, and durable lithium- and sodium-ion battery (LIB and NIB) performance using single-crystalline long-range-ordered bilayered VO 2 nanoarray electrodes. This is important in boosting the high-rate performance in both Li and Na ion storage.

Li-ion

Li-ion Ni-Li Sodium Batteries

NETL investigating researching chemistries for large-scale battery- and supercapacitor-based grid energy storage systems

Green Car Congress

JUNE 28, 2011

The US Department of Energy’s National Energy Technology Laboratory (NETL) is conducting research on alternative options to reduce costs and make large-scale energy storage safer and more practical. High-energy density magnesium batteries for smart electrical grids. Earlier post.)

Energy Storage

Energy Storage Grid Energy Ni-Li

DOE announces $58M in funding for advanced vehicle technologies

Green Car Congress

JANUARY 21, 2016

Secretary Moniz also announced that two innovative projects at CALSTART and the National Association of Regional Councils will receive $3 million to develop systems that help companies combine their purchasing of advanced vehicles, components, and infrastructure to reduce incremental cost and achieve economies of scale.

Li-ion

Li-ion Ni-Li Vehicles Grid

PNNL Researchers Grow LiMnPO4 Cathode Materials via Solid-State Reaction in Molten Paraffin

Green Car Congress

JULY 26, 2010

V versus Li with a specific capacity reaching as high as 168 mAh/g under a galvanostatic charging/discharging mode, along with an excellent cyclability. M=Mn, Co, and Ni) structures, especially LiMnPO 4 with a higher theoretical energy density (701 Wh/kg ) 171 mAh/g × 4.1 V) vs Li/Li+.7 Tags: Batteries.

Ni-Li

Ni-Li Li-ion Cheap Low Cost

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

Tony Karrer Delicious EVdriven

APRIL 16, 2009

BYD

BYD 2009 Companies Electric Cars

EV Driven

PNNL: single-crystal nickel-rich cathode holds promise for next-generation Li-ion batteries

New aqueous rechargeable lithium battery shows good safety, high reliability, high energy density and low cost; another post Li-ion alternative

New high-voltage electrolyte additive supports high energy density and stability in LMNC Li-ion battery; 2x energy density over LiCoO2

Researchers demonstrate high-capacity Mn-rich Li-ion cathodes; a design pathway away from cobalt and nickel

U Akron team develops Mn-based high performance anode for Li-ion batteries

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

RIKEN team develops high-performance lithium-iodine battery system with higher energy density than conventional Li-ion

Sulfur nanodots on nickel foam as high-performance Li-S cathode materials; carbon- and binder-free

Beijing, Argonne researchers develop new solid-state Li-ion battery; glassy nanocomposite electrolyte with ILs

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

Update on Select Argonne Lab Activity with HEV and PHEV Li-ion Batteries

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

Ultrathin LiMn2O4 Nanowire Cathode Materials for Higher Li-ion Power Densities for HEV and EV Applications

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

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

Hanyang/BMW team develops high-energy density Li-ion battery with carbon-nanotube-Si composite anode and NCM concentration gradient cathode

BNL-led team finds electrolyte additive enables stable high-voltage cycling of nickel-rich layered cathodes

High-capacity GQD-coated VO2 nanoarray electrodes for high-performance Li- and Na-ion batteries

NETL investigating researching chemistries for large-scale battery- and supercapacitor-based grid energy storage systems

DOE announces $58M in funding for advanced vehicle technologies

PNNL Researchers Grow LiMnPO4 Cathode Materials via Solid-State Reaction in Molten Paraffin

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

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