【摘 要】
:
Molecular sorting and catalysis directed by shape selectivity have been extensively applied in porous extended frameworks for a low carbon,predictable,renewable component of modern industry.[1-4] A co
【机 构】
:
Research Center for Engineering Ecology and Nonlinear Science,North China Electric Power University,
论文部分内容阅读
Molecular sorting and catalysis directed by shape selectivity have been extensively applied in porous extended frameworks for a low carbon,predictable,renewable component of modern industry.[1-4] A comprehensive understanding of the underlying recognition mechanism toward different shapes is unfortunately still missing,owing to the lack of structural and dynamic information under operating conditions.We here demonstrate that such difficulties can be overcome by state-of-the-art molecular dynamics simulations which provide atomistic details that are not accessible experimentally,as exemplified by our interpretation for the experimentally observed aggregation-induced shape selectivity for Suzuki C-C coupling reaction catalyzed by Pd particles in mesoporous silica.[5] It is found that both aggregation ability and aggregating pattern of the reactants play the decisive role in controlling the shape selectivity,which are in turn determined by the balance between the hydrophobicity and hydrophilicity of the reactants,or in other words,by the balance between the non-covalent hydrogen bonding interaction and Van der Waals forces.A general rule that allows to predict the shape selectivity of a reactant has been proposed and verified against experiments.We show that molecular modeling is a powerful tool for rational design of new mesoporous systems and for the control of catalytic reactions that are important for the petrochemical industry.
其他文献
Tetraazido pentaerythritol(TAPE)is a candidate of energetic azido plasticizers with low glass transition temperature and high nitrogen content.A detailed theoretical investigation was carried out usin
One puzzle concerning Photosystem Ⅱ(PSⅡ),a core component for photosynthesis,is that only one of the two symmetric branches in its reaction center is active in electron transfer.To investigate the eff
Spin-polarized density functional theory calculations employing the plane-wave pseudopotential technique were used to investigate the atomic,electronic structures of ferromagnetic LaCoO3 and La1-xSrxC
The different protonation state of amino group can bring quite different catalytic mechanism in enzymatic process.Herein,based on state-of-the-art ab initio QM/MM MD simulations,the catalytic mechanis
The A199S/F227A/S287G/A328W/Y332G mutant of human butyrylcholineserase(BChE)catalyzes the hydrolysis of cocaine with high efficiency.It is not clear whether or not this hydrolyase will enhance the hyd
A computational study using M06 method on the cyclopropanation of endo-dicyclopentadiene with Simmons-Smith zinc carbenoids is reported.Each channel proceeds via the methylene-transfer mechanism.The c
过渡金属氧化物广泛运用在多相催化体系中,作为分散并稳定贵金属催化剂的载体或者直接作为活性相催化化学反应.催化研究的发展要求对这类材料的表面化学性质有全面深入的理解3d过渡金属Mn,Fe,Co,Ni的氧化物是相对特殊的一类氧化物材料,具有强关联的电子结构以及典型的铁磁性或反铁磁性,他们的磁性质在电子学及磁学领域得到广泛的关注,而这种磁性电子结构对表面化学性质的影响还鲜有研究.以NiO为代表的岩盐结构
The small ubiquitin-related modifier(SUMO)-specific protease(SENP)processes SUMOs to mature forms and deconjugates them from various modified substrates.Loss of the equilibrium from desumoylation cata
Human cytosolic sulfotransferases(hSULTs)are important phase II metabolic enzymes[1-3].They catalyze transfer of the sulfuryl-group(-SO3)from 3-phosphoadenosine 5-phosphosulfate(PAPS)to the hydroxyl o
高岭石广泛应用于化工填料和吸附材料等领域,是重要的非金属矿产物质.材料本身固有的原子电子结构决定了其宏观性能.本文首先在CASTEP中建立高岭石晶体结构.然后在500eV截断能和GGA-PW91交换关联函数下进行计算.结果表明:高岭石是一种绝缘体,其价带主要有O的sp态电子决定,导带主要有Si和Al的sp态电子和H的s态电子决定.高岭石中的Si-O和Al-O键,既有离子键又有共价键.为进一步分析高