Batteries, Carbon, Ni-Li and Transportation

UNIST team develops new electrolyte additive for high-energy-density Li-ion batteries

Green Car Congress

FEBRUARY 15, 2021

Researchers at the Ulsan National Institute of Science and Technology (UNIST) in Korea have developed an innovative electrolyte additive that enables a high-energy-density Li-ion battery to retain more than 80% of its initial capacity even after hundreds of cycles. O 2 cathodes. O 2 cathodes. capacity retention after 400 cycles at 1?C

Li-ion

Li-ion Lithium Ion Ni-Li Energy

Roskill forecasts Li-ion battery demand to increase more than ten-fold by 2029 to >1,800GWh

Green Car Congress

JUNE 9, 2020

Roskill forecasts that Li-ion battery demand will increase more than ten-fold by 2029, reaching in excess of 1,800GWh capacity. The pipeline capacity of battery gigafactories is reported by Roskill to exceed 2,000GWh in 2029, at more than 145 facilities globally.

Li-ion

Li-ion Ni-Li Batteries Battery

ARPA-E awarding $39M to 16 projects to grow the domestic critical minerals supply chain

Green Car Congress

OCTOBER 28, 2022

RECLAIM: Electrochemical Lithium and Nickel Extraction with Concurrent Carbon Dioxide Mineralization ($2,999,997). Feedstocks will include Li/Ni/Ca/Mg-rich igneous and sedimentary minerals. Olivine is a CO 2 -reactive waste product that can be returned as tailings after capture carbon from the air. Harvard University.

Supplies

Supplies Ni-Li Carbon Universal

Researchers call for integration of materials sustainability into battery research; the need for in situ monitoring

Green Car Congress

JANUARY 18, 2017

In a review paper in the journal Nature Materials , Jean-Marie Tarascon (Professor at College de France and Director of RS2E, French Network on Electrochemical Energy Storage) and Clare Gray (Professor at the University of Cambridge), call for integrating the sustainability of battery materials into the R&D efforts to improve rechargeable batteries.

Li-ion

Li-ion Ni-Li Batteries Battery

Argonne researchers use X-rays to understand the flaws of speedy charging

Green Car Congress

FEBRUARY 12, 2019

A team at Argonne National Laboratory has used spatially resolved energy dispersive X-ray diffraction to obtain a “movie” of lithiation and delithiation in different sections of a Li-ion battery cell and to quantify lithium gradients that develop in a porous graphite electrode during cycling at a 1C rate (full discharge in 1 hour).

Li-ion

Li-ion Ni-Li Lithium Ion Charging

Yale team introduces new Li-O2 cell architecture with mesoporous catalytic membrane; improved cycling stability

Green Car Congress

DECEMBER 31, 2014

Schematic illustration of a Li-O 2 cell employing a mesoporous catalytic polymer membrane. A modified Li-O 2 battery with a catalytic membrane showed a stable cyclability for 60 cycles with a capacity of 1000 mAh/g and a reduced degree of polarization (?0.3 Credit: ACS, RYu et al. Click to enlarge.

Ni-Li

Ni-Li Li-ion Polymer Batteries

ANL team develops new class of Li- and Na- rechargeable batteries based on selenium and selenium-sulfur; greater volumetric energy densities than sulfur-based batteries

Green Car Congress

MARCH 1, 2012

Cycling performance of Li/SeS 2 ?C, Researchers at Argonne National Laboratory have developed selenium and selenium–sulfur (Se x S y )-based cathode materials for a new class of room-temperature lithium and sodium batteries. Unlike the widely studied Li/S system, both Se and Se x S y can be cycled to high voltages (up to 4.6

Recharge

Recharge Ni-Li Li-ion Batteries

New strategy for dendrite-free Li-metal batteries based on atomic channels

Green Car Congress

NOVEMBER 15, 2021

An international team of researchers has developed a new strategy for dendrite-free lithium-metal batteries based on the use of interlayer and intralayer atomic channels in graphite formed by pre-tunnelling the graphite layers. The obtained atomic channels enable the free and fast diffusion of lithium with enhanced kinetics. atomic channels.

Ni-Li

Ni-Li Batteries Battery Carbon

EnerDel Teams With Nissan on Electrolyte Research at Argonne Lab

Green Car Congress

JULY 30, 2009

Lithium-ion automotive battery producer EnerDel and Nissan Motor Co. are teaming up to co-fund research at Argonne National Laboratory (ANL) on a new electrolyte for lithium-ion batteries. Both EnerDel and AESC, Nissan’s Li-ion JV, work with that chemistry. EnerDel is currently wrapping up an 18-month, $2.5 O 2 material.

Ni-Li

Ni-Li Li-ion Nissan Lithium Titanate

The 80-20 Rule

Plug In Partners

JULY 18, 2008

So why carry around five times more battery storage and weight for that 20 %? Pollution here includes greenhouse gases such as carbon-dioxide. Are the batteries ready? The excuse “ the batteries aren’t ready ” has been used frequently because it is convenient, and few people bother to check. more ) T he good news is this.

EPRI

EPRI Li-ion Ni-Li PHEV

Researchers boost performance of lithium-rich cathode material 30-40% by creating oxygen vacancies

Green Car Congress

JULY 7, 2016

An international team of researchers has demonstrated a new way to increase the robustness and energy storage capability of a particular class of “lithium-rich” cathode materials by using a carbon dioxide-based gas mixture to create oxygen vacancies at the material’s surface. —Qiu et al.

San Diego

San Diego Li-ion Ni-Li Lithium Ion

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

DOE announces $58M in funding for advanced vehicle technologies

Green Car Congress

JANUARY 21, 2016

This FOA contains a total of 11 Areas of Interest (AOIs) and focuses on advanced light-weighting; advanced battery development; low cost electric motor development; enabling technologies for high efficiency engines; and support for EV deployment and AFV workplace safety programs. Carbon Fiber Polymer Composite.

Li-ion

Li-ion Ni-Li Vehicles Grid

CalCars and PHEVs Frequently Asked Questions

Tony Karrer Delicious EVdriven

APRIL 21, 2009

Our PRIUS+ Project Photos PHEV Resources Global Warming Take Action News and Events Contact Us CalCars Frequently Asked Questions Jump to: Environmental Effects and Benefits Alternative Fuels Batteries PHEV Conversions Other Questions Note: This page is overdue for a major overhaul. We can extrapolate similar trends for PHEV batteries.

PHEV

PHEV Nickel Metal Hydride Prius EPRI

EV Driven

UNIST team develops new electrolyte additive for high-energy-density Li-ion batteries

Roskill forecasts Li-ion battery demand to increase more than ten-fold by 2029 to >1,800GWh

ARPA-E awarding $39M to 16 projects to grow the domestic critical minerals supply chain

Researchers call for integration of materials sustainability into battery research; the need for in situ monitoring

Argonne researchers use X-rays to understand the flaws of speedy charging

Yale team introduces new Li-O2 cell architecture with mesoporous catalytic membrane; improved cycling stability

ANL team develops new class of Li- and Na- rechargeable batteries based on selenium and selenium-sulfur; greater volumetric energy densities than sulfur-based batteries

New strategy for dendrite-free Li-metal batteries based on atomic channels

EnerDel Teams With Nissan on Electrolyte Research at Argonne Lab

The 80-20 Rule

Researchers boost performance of lithium-rich cathode material 30-40% by creating oxygen vacancies

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

DOE announces $58M in funding for advanced vehicle technologies

CalCars and PHEVs Frequently Asked Questions

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