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Photocatalysis: Single‐Crystalline Nanomesh Tantalum Nitride Photocatalyst with Improved Hydrogen‐Evolving Performance (Adv. Energy Mater. 1/2018)
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2018-01-05 , DOI: 10.1002/aenm.201870005 Mu Xiao 1 , Bin Luo 1 , Miaoqiang Lyu 1 , Songcan Wang 1 , Lianzhou Wang 1
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2018-01-05 , DOI: 10.1002/aenm.201870005 Mu Xiao 1 , Bin Luo 1 , Miaoqiang Lyu 1 , Songcan Wang 1 , Lianzhou Wang 1
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In article number 1701605, Lianzhou Wang and co‐workers report a new type of ultrathin Ta3N5 nanomesh with high specific surface area and excellent crystallinity by an innovative bottom‐up graphene oxide templated strategy. The resulting Ta3N5 nanomeshes demonstrate drastically improved electron transport ability and prolonged lifetime of charge carriers, due to the nature of high surface area and excellent crystallinity. As a result, when used as photocatalysts, the Ta3N5 nanomeshes exhibit a greater than tenfold improvement in solar hydrogen production compared to bulk counterparts.
中文翻译:
光催化:具有改善的析氢性能的单晶体纳米网状氮化钽光催化剂(Adv。Energy Mater。1/2018)
Wang Lianzhou Wang及其同事在文章编号1701605中报告了一种新型的超薄Ta 3 N 5纳米筛网,它具有创新的自下而上的氧化石墨烯模板化策略,具有较高的比表面积和出色的结晶度。由于高表面积和优异的结晶性,所得的Ta 3 N 5纳米网证明电子传输能力大大提高,电荷载流子寿命延长。结果,当用作光催化剂时,与本体对应物相比,Ta 3 N 5纳米网在太阳能制氢方面显示出大于十倍的改进。
更新日期:2018-01-05
中文翻译:
光催化:具有改善的析氢性能的单晶体纳米网状氮化钽光催化剂(Adv。Energy Mater。1/2018)
Wang Lianzhou Wang及其同事在文章编号1701605中报告了一种新型的超薄Ta 3 N 5纳米筛网,它具有创新的自下而上的氧化石墨烯模板化策略,具有较高的比表面积和出色的结晶度。由于高表面积和优异的结晶性,所得的Ta 3 N 5纳米网证明电子传输能力大大提高,电荷载流子寿命延长。结果,当用作光催化剂时,与本体对应物相比,Ta 3 N 5纳米网在太阳能制氢方面显示出大于十倍的改进。
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