As a typical electron deficient element,beryllium is potentially suitable for designing the species with novel non-classical planar hypercoordinate carbon due to high preference for the planar structures by small beryllium-containing clusters.In particular,the CBes4-cluster with a planar pentacoordinate carbon(ppC)had been proved by many previous studies to be an excellent template structure for the systematic design of ppC species through attaching various monovalent atoms on the bridging position of Be-Be edges.In this work,based on the analysis and extension on our recently reported CBe4Mnn-2(M=Li,Au,n=1～3)species,we propose that ptC cluster CBe42-is similar to CBes4-in that it can also be employed as a template structure to systematically design the ptC species through binding various monovalent atoms on the bridging position of Be-Be edges.Our extensive screening suggests that the feasible bridging atoms(E)can be found in group 1(H,Li,Na),group 11(Cu,Ag,Au),and group 17(F,Cl,Br,I)elements,leading to total thirty eligible ptC species with CBe4 core moiety(CBe4Enn-2).The ptC atoms in these species are involved into three delocalized σ bonds and a delocalized π bond,thereby not only obeying the octet rule,but also possessing novel 6 σ+2 π double aromaticity,which significantly stabilizes the ptC arrangement.In addition,the attached bridging atoms can stabilize the CBe4 core ptC moiety by replacing the highly diffused Be-Be two-center two-electron bonds with the much less diffused Be-E two-center two-electron bonds or Be-E-Be three-center two-electron bonds,as reflected by the increasing HOMO-LUMO gaps when the number of bridging atoms increases.Remarkably,the stochastic search algorithm in combination with high level CCSD(T)calculations revealed that twenty-six of the thirty-one ptC species(including previously reported six spe-cies)were global energy minima on their corresponding potential energy surfaces,in which twenty-five of them were also confirmed to be dynamically viable.They are suitable for the generation and characterization in gas phase ex-periments and followed spectroscopic studies.

JIN Bo;BIAN Jian-Hong;ZHAO Xue-Feng;YUAN Cai-Xia;GUO Jin-Chang;WU Yan-Bo

Key Laboratory of Materials for Energy Conversion and Storage of Shanxi Province,Institute of Molecular Science,Shanxi University,Taiyuan 030006,China;Department of Chemistry,Changzhi University,Changzhi 046011,China

结构化学

[1]JIN Bo;BIAN Jian-Hong;ZHAO Xue-Feng;YUAN Cai-Xia;GUO Jin-Chang;WU Yan-Bo-.Planar Tetracoordinate Carbon in 6 σ+2π Double Aromatic CBe42-Derivatives)[J].结构化学,2022(03):218-226

Tetracoordinate,CBe42,hypercoordinate,CBes4,pentacoordinate,ppC,CBe4Mnn,ptC,CBe4,CBe4Enn,octet

Planar,Carbon,+2,Double,Aromatic,Derivatives,typical,electron,deficient,beryllium,potentially,suitable,designing,species,novel,classical,planar,carbon,due,preference,structures,small,containing,clusters,In,particular,had,been,proved,many,studies,excellent,template,through,attaching,various,monovalent,atoms,bridging,position,edges,this,work,analysis,extension,our,recently,reported,Li,Au,propose,that,similar,also,employed,systematically,binding,Our,extensive,screening,suggests,feasible,found,group,Na,Ag,Cl,Br,elements,leading,total,thirty,eligible,core,moiety,these,are,involved,into,three,delocalized,bonds,thereby,not,only,obeying,rule,but,possessing,double,aromaticity,which,significantly,stabilizes,arrangement,addition,attached,replacing,highly,diffused,two,center,much,less,reflected,increasing,HOMO,LUMO,gaps,when,number,increases,Remarkably,stochastic,search,algorithm,combination,level,CCSD,calculations,revealed,twenty,six,one,including,previously,were,global,energy,minima,their,corresponding,surfaces,five,them,confirmed,dynamically,viable,They,generation,characterization,gas,phase,periments,followed,spectroscopic

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