Better Lithium Ion Batteries on the Cards

Better Lithium Ion Batteries on the Cards

  • Research Stash
  • News
  • 1.5K

A team of scientists at India Institute of Technology (IIT), Hyderabad, has developed a set of new electrodes that promise to help produce lithium-ion batteries with higher energy densities.

Battery cells consist of a cathode, anode and the electrolyte that conducts ions between two electrodes. The energy density of a battery depends on voltage and specific capacity (the capacity to store an amount of charge in the material per unit mass) of electrode material.

The cathodes are usually made of mixed transition metal oxides and metal phosphates and have specific capacities in the range of 140-210 milliampere hour per gram. The anodes are made of graphite and have specific capacities of 350 milliampere hour per gram. The energy density of the overall cells ranges from 100 to 265 Watt-hour per kilogram.

The team at IIT Hyderabad has developed two new cathode materials and one anode material. For the first type of cathode, they synthesized mixtures of transition metal oxide and carbon-coated lithium manganese phosphate, to form a “blended cathode”. It has been found to show good stability under repeated cycling.

The electrodes made with this blend had a specific capacity of 225 milliampere hour per gram. The second cathode is based on doping of transition metal oxide cathode material with fluorine and magnesium. It has a capacity of nearly 280 milliampere hour per gram.

The anode material, developed in collaboration with Oak Ridge National Laboratory (USA), is an organic binder-less, additive-free 3D electrode architecture made of silicon and nanocarbon. It was coated on a current collector made up of carbon fiber, instead of copper foil. The new anodes had capacities of over 2,000 milliampere hour per gram.

The leader of the study team, Dr. Surendra K. Martha, said that silicon was used for the anode material because of its outstanding specific capacity. One silicon atom can bond with more than four lithium ions, while six carbon atoms are needed to bind to a single ion of lithium.

“The material developed by retains the advantage of silicon in terms of higher capacity and at the same time overcome disadvantages like poor physical integrity as it provides enough space between silicon and the surrounding carbon coating, which allows for volume expansion and contraction without pulverization of the silicon”, he said.

The research team has demonstrated the viability of its development, by combining the new cathode and anode materials in a coin-type lithium ion cell. It generated energy densities of 500 Watthour per kilogram. (India Science Wire)

By Sunderarajan Padmanabhan

Journal Article

Nanostructured Silicon–Carbon 3D Electrode Architectures for High-Performance Lithium-Ion Batteries

If you liked this article, then please subscribe to our YouTube Channel for the latest Science & Tech news. You can also find us on Twitter & Facebook.

Rate

The team at IIT Hyderabad has developed two new cathode materials and one anode material. For the first type of cathode, they synthesized mixtures of transition metal oxide and carbon-coated lithium manganese phosphate, to form a “blended cathode”. It has been found to show good stability under repeated cycling.

The electrodes made with this blend had a specific capacity of 225 milliampere hour per gram. The second cathode is based on doping of transition metal oxide cathode material with fluorine and magnesium. It has a capacity of nearly 280 milliampere hour per gram.

The anode material, developed in collaboration with Oak Ridge National Laboratory (USA), is an organic binder-less, additive-free 3D electrode architecture made of silicon and nanocarbon. It was coated on a current collector made up of carbon fiber, instead of copper foil. The new anodes had capacities of over 2,000 milliampere hour per gram.

The leader of the study team, Dr. Surendra K. Martha, said that silicon was used for the anode material because of its outstanding specific capacity. One silicon atom can bond with more than four lithium ions, while six carbon atoms are needed to bind to a single ion of lithium.

“The material developed by retains the advantage of silicon in terms of higher capacity and at the same time overcome disadvantages like poor physical integrity as it provides enough space between silicon and the surrounding carbon coating, which allows for volume expansion and contraction without pulverization of the silicon”, he said.

The research team has demonstrated the viability of its development, by combining the new cathode and anode materials in a coin-type lithium ion cell. It generated energy densities of 500 Watthour per kilogram. (India Science Wire)

By Sunderarajan Padmanabhan

Journal Article

Nanostructured Silicon–Carbon 3D Electrode Architectures for High-Performance Lithium-Ion Batteries

If you liked this article, then please subscribe to our YouTube Channel for the latest Science & Tech news. You can also find us on Twitter & Facebook.

" }
Eminent Theoretical Physicist E.C.G.Sudarshan Passes Away

Eminent Theoretical Physicist E.C.G.Sudarshan Passes Away

The world of science has lost an eminent physicist with the passing away of Prof. E.C.G.Sudershan, who was nominated for Nobel Prize several times but missed the coveted honor every time.

  • News
  • 5K
Read more
Micro needle-Based System Can Take Pain Away from Vaccinations

Microneedle-Based System Can Take Pain Away from Vaccinations

For kids who hate needle pricks, there may be another option in the offing. Scientists at Hyderabad campus of Birla Institute of Technology and Science (BITS) Pilani have developed a microneedle patch for drug delivery using a biopolymer, zein.

  • News
  • 1.8K
Read more
Scientists Find New Dimension to Dynamics of Indian Ocean

Scientists Find New Dimension to Dynamics of Indian Ocean

Indian scientists have discovered a hitherto unknown effect of the tropical weather phenomenon known as Madden-Julian Oscillation, which plays an important role in determining the fate of Indian summer monsoon

  • News
  • 1.5K
Read more

Internet is huge! Help us find great content

Newsletter

Never miss a thing! Sign up for our newsletter to stay updated.

About

Research Stash is a curated collection of tools and News for S.T.E.M researchers

Have any questions or want to partner with us? Reach us at hello@researchstash.com

Navigation

Submit