A team of scientists led by the U.S. Department of Energy’s (DOE) Brookhaven National Laboratory and Lawrence Berkeley National Laboratory has captured in real time how lithium ions move in lithium titanate (LTO), a fast-charging battery electrode material made of lithium, titanium and oxygen. They discovered that distorted arrangements of lithium and surrounding atoms in…
Chasing lithium ions on the move in a fast-charging battery
A team of scientists led by the U.S. Department of Energy’s (DOE) Brookhaven National Laboratory and Lawrence Berkeley National Laboratory has captured in real time how lithium ions move in lithium titanate (LTO), a fast-charging battery electrode material made of lithium, titanium, and oxygen. They discovered that distorted arrangements of lithium and surrounding atoms in…
Powering the future with revolutionary lithium extraction technique
An international research team has pioneered and about to patent a new filtration technique that could one day slash lithium extraction times and change the way the future is powered. The world-first study, published today in the prestigious international journal Nature Materials, presents findings that demonstrate the way in which Metal-Organic Framework (MOF) channels can…
Scientists learn more about the first hours of a lithium-ion battery’s life
By: Tom Rickey, PNNL The first hours of a lithium-ion battery’s life largely determine just how well it will perform. In those moments, a set of molecules self-assembles into a structure inside the battery that will affect the battery for years to come. This component, known as the solid-electrolyte interphase or SEI, has the crucial…
VCU researchers to develop next-generation, long-lasting batteries
Virginia Commonwealth University researchers in the College of Engineering Department of Chemical and Life Science Engineering will receive a $2.5 million grant from the U.S. Department of Energy to develop next-generation rechargeable batteries. By redesigning the materials inside lithium-ion batteries, which power everything from smartphones to electric vehicles, the researchers believe they can significantly extend battery life,…
Energy storage startup SPARKZ licenses ORNL cobalt-free battery tech
Energy storage startup SPARKZ has exclusively licensed five battery technologies from the Department of Energy’s Oak Ridge National Laboratory designed to eliminate cobalt metal in lithium-ion batteries. The advancement is aimed at accelerating the production of electric vehicles and energy storage solutions for the power grid. The licensed technologies include cathode materials, a novel electrolyte…
Cathode ‘defects’ improve battery performance
Engineers strive to design smartphones with longer-lasting batteries, electric vehicles that can drive for hundreds of miles on a single charge, and a reliable power grid that can store renewable energy for future use. Each of these technologies is within reach — that is, if scientists can build better cathode materials. To date, the typical…
Yotta to install SolarLEAF at California University
Yotta, the developer of safe panel-level energy storage, announced today that it has teamed up with California State University, Dominguez Hills (CSUDH), to install Yotta’s proprietary technology for energy storage on campus. The project has been designed to test the grid-interactive power controls of Yotta’s SolarLEAF and to ensure that critical tasks are successfully executed.…
Seeing inside a battery while it’s working
A new paper-thin radio-frequency detector designed to work inside a lithium-ion battery provides information about the battery’s health while charging and discharging. “It could enable researchers to check a battery’s function and capacity after years of storage without destroying it,” said Eric Sorte, a physicist at Sandia National Laboratories. The work, funded by Sandia’s Laboratory…
Potassium-driven rechargeable batteries: An effort towards a more sustainable environment
Concerns about the scarcity of lithium and other materials necessary in the now ubiquitous lithium-ion batteries have recently driven many researchers to look for alternatives, such as sodium and potassium. Professor Shinichi Komaba from Tokyo University of Science, Japan, and his team have worked for over a decade on this topic. In his latest review…
Scientists pinpoint cause of harmful dendrites and whiskers in lithium batteries
Scientists have uncovered a root cause of the growth of needle-like structures—known as dendrites and whiskers—that plague lithium batteries, sometimes causing a short circuit, failure, or even a fire. The team, led by Chongmin Wang at the Department of Energy’s Pacific Northwest National Laboratory, has shown that the presence of certain compounds in the electrolyte—the…
A peek into the battery technology pipeline
Lithium ion is probably the most advanced technology available for the packs of rechargeable batteries you’ll buy this holiday season. The batteries also power the vast majority of consumer devices, electric vehicles, and grid storage systems. Despite their ubiquity, lithium-ion batteries have disadvantages. Metals used in the batteries are becoming expensive and one crucial…
Optimizing energy and cost in renewable grid systems: An electrochemistry and control-based idea
In the 1970s, M. Stanley Whittingham proposed an initial concept of lithium-ion batteries that use LixTiS2 as cathode and lithium metal as anode materials, where intercalation effects were demonstrated with a small lattice expansion [1]. In 1979-1980, John B. Goodenough discovered that the transition metal LixCoO2 at the cathode produces a potential as high as…
Researchers Develop Semi-Liquid Metal Anode For Next-Generation Batteries
Researchers from Carnegie Mellon University’s Mellon College of Science and College of Engineering have developed a semiliquid lithium metal-based anode that represents a new paradigm in battery design. Lithium batteries made using this new electrode type could have a higher capacity and be much safer than typical lithium metal-based batteries that use lithium foil as…
Most Detailed X-Ray Image of Batteries Yet to Reveal Why They Still Aren’t Good Enough
Electric cars rely on the same lithium-ion battery technology that’s in smartphones, laptops and virtually everything electronic. But the technology has been extremely slow to improve. While electric cars can more than handle the average American’s daily commute, the average gas-powered car can still go farther on a full tank of gas, charging stations are…
Scientists Design Organic Cathode For High Performance Batteries
Researchers at the U.S. Department of Energy’s (DOE) Brookhaven National Laboratory have designed a new, organic cathode material for lithium batteries. With sulfur at its core, the material is more energy-dense, cost-effective, and environmentally friendly than traditional cathode materials in lithium batteries. The research was published in Advanced Energy Materials on April 10, 2019. Optimizing…
New Organic Flow Battery Brings Decomposing Molecules Back to Life
Charging Into the Future–Novel Rock Salt For Use in Rechargeable Magnesium Batteries
Life today depends heavily on electricity. However, the unrelenting demand for electricity calls for increasingly greener and “portable” sources of energy. Although windmills and solar panels are promising alternatives, the fluctuation in output levels depending on external factors renders them as unreliable. Thus, from the viewpoint of resource allocation and economics, high-energy density secondary batteries…
Washable, Wearable Battery-Like Devices Could be Woven Directly Into Clothes
Researchers Make Advancement With Cathode For Water-in-Salt Battery
By improving a water-in-salt battery prototype, researchers believe they are well on their way to developing new high energy batteries. A team from the University of Maryland (UMD) and the U.S. Army Research Lab (ARL) have created a new type of chemical transformation of the cathode that yields, for the first time ever, a reversible…
Army Discovery Opens Path to Safer Batteries
Soldiers carrying 15-25 pounds of batteries could carry batteries a fraction of the weight but with the same energy and improved safety, a new study shows. In the latest issue of the journal Nature, researchers at the U.S. Army Combat Capabilities Development Command’s Army Research Laboratory, the Army’s corporate research laboratory known as ARL, and…
Development of ‘Transparent and Flexible Battery’ For Power Generation and Storage at Once
Various use of electronics and skin-attachable devices are expected with the development of transparent battery that can both generate and store power. DGIST announced on Tuesday, April 23 that Senior Researcher Changsoon Choi’s team in the Smart Textile Research Group developed film-type graphene based multifunctional transparent energy devices. Senior Researcher Changsoon Choi’s team actively used…
Graphene Brings Lithium-Sulphur Batteries to New Frontiers
Scientists from the Chalmers University of Technology in Sweden believe a new type of battery with a catholyte that contains a graphene sponge could help bring lithium-sulphur batteries to the forefront, eventually replacing lithium-ion batteries. The researchers found that a porous, sponge-like aerogel made from reduced graphene oxide acts as a freestanding electrode in the…
New Breakthroughs in Research on Super-Batteries
Since 2012, Stefan Freunberger of the Institute for Chemistry and Technology of Materials at TU Graz has been working on development of a new generation of batteries with enhanced performance and longer useful lives, and which are also cheaper to produce than current models. He believes that lithium-oxygen batteries have significant potential. In 2017, in…