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论棉花“增氮补钾”效应及其技术原则 被引量:3
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作者 丁宏议 马刚 +3 位作者 马国强 李兰芳 刘福如 朱剑高 《上海农业科技》 1998年第3期38-40,共3页
南通棉区700多万亩耕地,目前土壤有机质为1.37%,全氮0.099%,速效磷4.2mg/kg,速效钾111.7mg/kg,不能适应粮棉油高产优质的需求。尤其是速效钾,已由1982年的118.7mg/kg降到1994年的91.1mg/kg,严重地区已降到17.7~36.7mg/kg。缺钾面积由... 南通棉区700多万亩耕地,目前土壤有机质为1.37%,全氮0.099%,速效磷4.2mg/kg,速效钾111.7mg/kg,不能适应粮棉油高产优质的需求。尤其是速效钾,已由1982年的118.7mg/kg降到1994年的91.1mg/kg,严重地区已降到17.7~36.7mg/kg。缺钾面积由1982年的46.6%上升到1994年的66.7%。缺肥必须肥来补,增肥是增产的基础。1996年全市147万亩棉花氮、磷、钾(纯N、P_2O_5、K_2O,下同)亩施量比1995年增1.73、0.85、1.05kg,再配合其他措施,亩增皮棉12kg。当前。 展开更多
关键词 棉花 增氧效应 补钾效应 产量效应
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Carbon-CeO interface confinement enhances the chemical stability of Pt nanocatalyst for catalytic oxidation reactions 被引量:2
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作者 Changjin Xu Yue Zhang +3 位作者 Jing Chen Song Li Ya-Wen Zhang Gaowu Qin 《Science China Materials》 SCIE EI CSCD 2021年第1期128-136,共9页
Noble metals are downsized to nano-/subnanoscale to improve their catalytic activity and atom-economy.However,the stabilities in chemical state and catalytic performance of these nanocatalysts often suffer during hars... Noble metals are downsized to nano-/subnanoscale to improve their catalytic activity and atom-economy.However,the stabilities in chemical state and catalytic performance of these nanocatalysts often suffer during harsh conditions.For Pt nanoparticles(NPs)supported on CeO2,activated oxygen diffused from the support over-stabilizes the active sites of Pt,degrading its performance at mild temperature.In this work,Pt nanocatalysts with unique structure of triple-junction are synthesized by selectively growing Pt NPs on the carbon-CeO2 interface.Impressively,the Pt NPs exhibit much enhanced catalytic stability and high activity for CO oxidation at mild temperature.The enhancement is attributed to electron donation from graphitized carbon and the confinement effect from the high-density nanopores of the CeO2 support.The triple-junction of Pt-C-CeO2,combining the merits of CeO2 for activating O2 and electron donating capability of carbon,provides new inspiration to the fabrication of high-performance nanocatalysts. 展开更多
关键词 catalyst stability Pt nanocatalyst interface confinement
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