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机译:金属有机骨架的有效结构缺陷,以增强其催化性能
Chongqing Univ Inst Adv Interdisciplinary Studies Multiscale Porous Mat Ctr Chongqing 400045 Peoples R China;
KAUST Adv Membranes &
Porous Mat Ctr Thuwal 239556900 Saudi Arabia;
KAUST Adv Membranes &
Porous Mat Ctr Thuwal 239556900 Saudi Arabia;
KAUST Adv Membranes &
Porous Mat Ctr Thuwal 239556900 Saudi Arabia;
Chongqing Univ Inst Adv Interdisciplinary Studies Multiscale Porous Mat Ctr Chongqing 400045 Peoples R China;
KAUST Adv Membranes &
Porous Mat Ctr Thuwal 239556900 Saudi Arabia;
KAUST Adv Membranes &
Porous Mat Ctr Thuwal 239556900 Saudi Arabia;
Chongqing Univ Inst Adv Interdisciplinary Studies Multiscale Porous Mat Ctr Chongqing 400045 Peoples R China;
Chongqing Univ Inst Adv Interdisciplinary Studies Multiscale Porous Mat Ctr Chongqing 400045 Peoples R China;
Chongqing Univ Inst Adv Interdisciplinary Studies Multiscale Porous Mat Ctr Chongqing 400045 Peoples R China;
KAUST Adv Membranes &
Porous Mat Ctr Thuwal 239556900 Saudi Arabia;
机译:金属有机骨架的有效结构缺陷,以增强其催化性能
机译:固有缺陷构建多层多孔纳米颗粒@金属-有机骨架复合材料以提高催化效率
机译:通过工程结构缺陷开启金属有机框架的光电催化
机译:增强金属有机框架涂层的4D过渡金属纳米颗粒的增强催化活性及其机理
机译:了解结构特征在金属有机框架催化和力学性能中的作用
机译:堆叠纳米片金属-有机框架中的配位模式工程可增强催化反应性和结构坚固性
机译:通过主动站点工程调整金属有机骨架在精细化学中的催化性能