Research paves the way for efficient Zinc-ion batteries (ZIBs) for a greener future
Bengaluru based scientists have unveiled a breakthrough that could power the next generation of eco-friendly batteries. Moving beyond lithium batteries, the currently favourite one, researchers have designed a cathode material suitable for the more environment friendly Zinc batteries
This can enhance the energy density and stability of the materials resulting in more efficient batteries
Read here: https://t.co/z5l4zGvIST
A breakthrough for India's energy future!
@CeNS_Bangalore, an autonomous institute of @IndiaDST has developed a self-charging battery that uses air to recharge. This can boost clean energy, cut dependence on external power & drive India’s self-reliance.
https://t.co/YePF7CvbTA
Redefining energy storage with photo-assisted, self-charging energy storage devices
Researchers have unveiled a novel air-chargeable battery for a sustainable power solution. This technology traps the oxygen from the environment to drive the charging process for energy storage and is a step towards a carbon-neutral future
Recent research has explored the “air-assisted self-charging” concept of aqueous ZIBs, aiming to utilize oxygen from the air to replenish the charge of the battery
Read here: https://t.co/2nsfLPvIwJ
@IndiaDST
New device enables smart windows to change color without external power source
Researchers have developed a new generation of smart windows with advanced self-charging, color-responsive technology with integrated energy storage.
Conventional smart windows are only capable of modulating the transmission of light. Researchers have made a significant leap in smart window technology by developing innovative windows that not only change color but also possess self-rechargeable capabilities, making them a promising addition to modern buildings. These smart windows enhance aesthetics by seamlessly switching colors while simultaneously storing energy, a feature that could revolutionize energy efficiency in architecture.
Read here: https://t.co/tC1IEosfa5
Hear the story behind the EES Batteries Review from Ashutosh Singh et al. on design and strategies for photoassisted rechargeable metal-ion batteries: https://t.co/RW8KrAU8Em. Read for free: https://t.co/TlYpH7ZUQ1
One of the first EES Batteries comes from Ashutosh Singh and colleagues. Read their review on the design and strategies for photoassisted rechargeable metal-ion batteries for free: https://t.co/9zBlTrSHzN
@CeNS_Bangalore
A new publication from our group is published in "Small". Synthesis Framework for Designing PtPdCoNiMn High‐Entropy Alloy: A Stable Electrocatalyst for Enhanced Alkaline Hydrogen Evolution Reaction. https://t.co/PFDSVBvVEZ
Innovative and affordable self-powered smart windows developed by Bengaluru Researchers
Groundbreaking studies have led to novel smart window technologies which do not require external electrical energy for their operational needs, hence enhancing their energy efficiency and functionality.
Read here: https://t.co/sSlfxPgtln
I am happy to share our recent publication, "VO2·xH2O nanoribbons as high-capacity cathode material for aqueous zinc ion batteries" https://t.co/nSpWUlYXQz
I am happy to share our latest publication in "Energy Storage Materials", Titled "Self-rechargeable aqueous Zn2+/K+ electrochromic energy storage device via scalable spray-coating integrated with Marangoni flow". https://t.co/eJWOFm9K7W
Our recent work on “Electrochromic and Energy Storage Performance Enhancement by Introducing Jahn–Teller Distortion: Experimental and Theoretical Study” has published in| ACS Applied Materials & Interfaces https://t.co/5plQ9TRs5r
Ultrathin sputtered NiO films for enhanced electrochromic performance in smart windows - now published in Journal of Materials Chemistry A https://t.co/UqjaNamI9m