伴随着陶瓷行业的进一步发展,越来越多的陶瓷产品逐渐应用到了更为广泛的领域,陶瓷行业也可谓是迎来了发展的大好时机,但是与此同时,陶瓷行业也面临着工业废气污染问题,毕竟陶瓷产品在生产过程中需要运用到各式各样的陶瓷生产技术以及相关的陶瓷生产原材料,这些陶瓷生产原材料在充分利用的过程中必定会产生污染物质,这些污染物质伴随着空气进入大气层中,便会形成大气污染,但是依据笔者多年来的从业经验分析,陶瓷行业不仅仅面临着严重的大气污染问题,同时也面临着各式各样的污染问题。笔者也将立足于陶瓷生产行业废气的污染治理现状,着重分
Ammonia(NH3),a critical raw material for various industrial chemicals,is also recognized as a clean and efficient energy carrier for the future energy economy[1
Designing providential catalyst is the key to drive the electrochemical nitrogen reduction reactions(NRR),which is referring to multiple intermediates and products. By means of density functional theory(DFT)calculations, we studied heteronuclear bi-atom e
The SnSe nanoparticles encapsulated in the carbon nanofibers(SnSe@C)with microrod morphology and core-shell structure are prepared by electrospinning and anneal
A 2D-2D titanium dioxide nanosheet-reduced graphene oxide (TNS-rGO) composite with better electronic conductivity and hydrophilicity was prepared by the hydroth
Lithium(Li) metal is considered as the most promising anode material for the next-generation high performance Li batteries.However,the uncontrollable dendritic growth impedes its commercial application.Herein,we design a 3 D Si@carbon nanofibers(CNFs)@ZnO
Lithium(Li)metal is the most potential anode material for the next-generation high-energy rechargeable batteries.However,intrinsic surface unevenness and'hostle
Uniform lithium(Li)deposition in all-solid-state Li metal batteries is greatly influenced by the anode/electrolyte interface.Herein,a Mg-modified interface was
Lithium metal is one of the most promising anode materials for next-generation electrochemical energy storage due to low electrochemical potential and high spec
Defect passivation is one of the most important strategies to boost both the efficiency and stability of per-ovskite solar cells(PSCs).Here,nontoxic and sustain