Facile synthesis of Manganese selenide anchored in Three-Dimensional carbon nanosheet matrix with enhanced Lithium storage properties. Chemical Engineering Journal, 2021; 423: 130243 DOI: 10.1016 ...

Study finds that anchoring manganese selenide nanoparticles, an anode material, in 3D carbon nanosheets prevents their expansion in lithium-ion batteries ...

Editor's notes: To contact Prashant Jain, call 217-333-3417; email: [email protected]. The paper "Liquid-like cationic sub-lattice in copper selenide clusters" is available online.

This article was originally published with the title “Reproduction of the Sulphide, Selenide, and Telluride of Silver in a Crystalline State, and of Filiform Silver” in SA Supplements Vol. 5 ...

According to Alexey Ganin, lead author and Head of the Glasgow ElectroChemistry on Solids (GECOS) group at the University of Glasgow's School of Chemistry, lithium-ion batteries, now common in ...

Time frame: 1 April 2024 - 31 March 2025 Institution search supports local language names. , Home Articles Superstoichiometric reversible and manipulable copper-ion intercalation in niobium selenide ...

While structural nematicity was known to exist in iron selenide, a property known as twinning made it impossible to measure accurately until a 2019 breakthrough by Dai, Lu and study co-author Tong ...

Layered Bismuth Selenide with a Kinetics‐Enhanced Iodine Doping Strategy Toward High‐Performance Aqueous Potassium‐Ion Storage Journal: Advanced Functional Materials Published: 2024-07-14 DOI: ...

Knight Optical - Zinc selenide (ZnSe) Optical ComponentsZinc Selenide (ZnSe) is a crystalline material that has a wide transmission band from 0.6µm to 21µm, covering a portion of the visible spectrum ...

New research from the United Kingdom sees potential to double efficiency of antimony selenide absorbers, beyond today’s champion cells with 10%, by applying latest growth methods, reducing ...

Researchers were already aware that tin selenide had a high thermoelectric coefficient at high temperatures, implying that it could generate a strong electric current from a temperature gradient.

Scientists from the University of Toledo in the United States have developed a 6.43%-efficient solar cell based on antimony selenide (Sb 2 Se 3), which is a little studied absorber material that ...