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机译:<![cdata [srtio 3 sub>纳米粒子/ snnb 2 sub> O 6 sub>纳米液0d / 2d异质结,具有增强的界面电荷分离和光催化氢进化活性。 ]
School of Chemistry and Chemical Engineering Jiangsu University 301 Xuefu Road Zhenjiang 212013 China;
School of Chemistry and Chemical Engineering Jiangsu University 301 Xuefu Road Zhenjiang 212013 China;
Institute for Energy Research Jiangsu University 301 Xuefu Road Zhenjiang 212013 China;
School of Chemistry and Chemical Engineering Jiangsu University 301 Xuefu Road Zhenjiang 212013 China;
School of Chemistry and Chemical Engineering Jiangsu University 301 Xuefu Road Zhenjiang 212013 China;
School of Chemistry and Chemical Engineering Jiangsu University 301 Xuefu Road Zhenjiang 212013 China;
Charge separation; Heterojunction; Hydrogen evolution; Mechanism; Photocatalysis;
机译:<![cdata [srtio 3 sub>纳米粒子/ snnb 2 sub> O 6 sub>纳米液0d / 2d异质结,具有增强的界面电荷分离和光催化氢进化活性。 ]
机译:N-SRTIO_3纳米粒子/ BIOBR纳米片作为0d / 2d杂血管型,用于增强可见光光催化染料降解
机译:FeP纳米颗粒/ CdS纳米片的0D / 2D异质结产生高效的光催化制氢
机译:2D卟啉共价有机纳米光催化氢气进化
机译:铌酸钙纳米片的光催化水分解活性及金纳米粒子的胶体结晶研究
机译:NIO纳米片与CDS纳米棒作为2D / 1D异质结联合用于改善光催化氢气进化
机译:超薄Ni(OH)2纳米蛋白酶用Zn0.5CD0.5S纳米颗粒装饰为2D / 0D杂交功能,用于高度增强的可见光催化光催化氢气进化