Headline: Novel green chemistry: A safe, low-cost, and eco-friendly conversion process for the synthesis of sulfonyl fluorides
■ Release Date: 2024.9.3
■ Published by: Osaka University
■ Keywords: sulfonyl fluorides, potassium fluoride, disulfides
■ Abstract:
A research group has developed a safe, cost-effective, and environmentally-friendly method to synthesize sulfonyl fluorides. By reacting thiols and disulfides with SHC5 and potassium fluoride, they achieved a green synthesis process with non-toxic by-products. This method simplifies the production of sulfonyl fluorides, making it suitable for chemical and industrial applications, aligning with Sustainable Development Goals.
Headline: Turning glycerol into gold: a new process makes biodiesel more profitable
■ Release Date: 2024.9.3
■ Published by: Tokyo Institute of Technology
■ Keywords: glycerol, borate, biodiesel
■ Abstract:
An electrooxidation process efficiently converts glycerol, a byproduct of biodiesel production, into high-value three-carbon compounds.
Headline: Discovery of glass-forming liquid electrolytes as a new liquid category
■ Release Date: 2024.9.3
■ Published by: Niigata University
■ Keywords: electrolyte, lithium, relaxation
■ Abstract:
Chemists have found a novel glass-forming liquid electrolyte that exhibits specific lithium-ion conduction. They study the speciation and dipole reorientation dynamics in the glass-forming liquid electrolyte by means of Raman and dielectric relaxation spectroscopy to understand the specific lithium-ion conduction, contributing to advancements in battery electrolyte research.
Headline: Preventing car battery fires with help from machine learning
■ Release Date: 2024.9.4
■ Published by: University of Arizona College of Engineering
■ Keywords: lithium-ion, battery, electric vehicles
■ Abstract:
New research proposes a way to predict and prevent temperature spikes and fires in the lithium-ion batteries commonly used to power electric vehicles.
Headline: Achieving a supercapacitor through the 'molecular coating' approach
■ Release Date: 2024.9.5
■ Published by: Advanced Institute for Materials Research (AIMR), Tohoku University
■ Keywords: capacitor, battery, carbon
■ Abstract:
A capacitor is like a high-speed battery that can quickly store and release energy. What happens when it becomes 'super?' Researchers have potential solutions to improve energy-efficiency.
Headline: Shining light on how solar power and farming can coexist
■ Release Date: 2024.9.6
■ Published by: Swansea University
■ Keywords: solar panel, photovoltaic, agriculture
■ Abstract:
Scientists have developed a new tool to help identify optimal photovoltaic (PV) materials capable of maximizing crop growth while generating solar power.
