Sustainable zinc–air battery chemistry: advances, challenges and prospects
Q Wang, S Kaushik, X **-Induced_Vacancy_Engineering_of_Cobalt_Sulfoselenide_for_Boosting_Electromagnetic_Wave_Absorption/links/623c343cf559847a66150f99/Anion-Do**-Induced-Vacancy-Engineering-of-Cobalt-Sulfoselenide-for-Boosting-Electromagnetic-Wave-Absorption.pdf?_sg%5B0%5D=started_experiment_milestone&_sg%5B1%5D=started_experiment_milestone&origin=journalDetail" data-clk="hl=en&sa=T&oi=gga&ct=gga&cd=9&d=10131752317884917822&ei=8TGsZ9PpFOzDieoP2tyjoAc" data-clk-atid="PmjFgw03m4wJ" target="_blank">[PDF] researchgate.net
Anion‐do**‐induced vacancy engineering of cobalt sulfoselenide for boosting electromagnetic wave absorption
Vacancy engineering is an attractive approach to modulate the electronic structure of
transition metal chalcogens. However, illustrating how anion vacancy can be engineered to …
transition metal chalcogens. However, illustrating how anion vacancy can be engineered to …