«Previous Article|Table of Contents|Next Article»

¡¶ÄϾ©Ê¦´óѧ±¨£¨×ÔÈ»¿Æѧ°æ£©¡·[ISSN:1001-4616/CN:32-1239/N]

Issue:

2014Äê03ÆÚ

Page:

78-

Research Field:

»¯Ñ§

Publishing date:

Info

Title:

A Theoretical Study on Structure and Stability ofPlanar B_nBe₃(n=1-6)

Author(s):

Wang Xiaoliang; Yang Guangli; Cui Wenwen; Zhu Xiaolei

State Key Laboratory of Materials-Oriented Chemical Engineering,College of Chemistry and Chemical Engineering,Nanjing University of Technology,Nanjing 210009,China

Keywords:

beryllium boride cluster; geometry; stability; DFT

PACS:

O613.71

DOI:

-

Abstract:

The geometrical structures and stabilities of possible isomers for planar B_nBe₃(n=1-6)clusters were investigated at the CCSD(T)/6-311+G(d)//B3LYP/6-311+G(d)level.The lowest-energy structures for B_nBe₃(n=1-6)are located.The evolution of the binding energy per atom,incremental binding energy,and second order difference of total energy with the boron atom number of B_nBe₃ reveals that the lowest-energy isomer of B₄Be₃ is highly stable.The results demonstrate that the stability of lowest-energy isomers of B_nBe₃(n=1-6)is attributed to the delocalized ¦Ð,¦Ò-radial,and ¦Ò-tangential molecular orbitals(MOs)interactions.Based on the analyses of valence molecular orbital,adaptive natural density partitioning(AdNDP),the electron localization function(ELF)and nucleus independent chemical shifts(NICSs),the third low-lying isomer of B₂Be₃ exhibits ¦Ò- and ¦Ð-double aromaticity.

References:

[1] Íõ¹ãºñ.ÍÅ´ØÎïÀíµÄнøÕ¹[J].ÎïÀíѧ½øÕ¹,1994,14(2):121-172.
[2]Das S,Pal S.Understanding the site selectivity in small-sized neutral and charged Al_n(4 ¡Ü n ¡Ü 7)clusters using density functional theory based reactivity descriptors:a validation study on water molecule adsorption[J].J Phys Chem A,2013,117(36):8 691-8 702.
[3]Sands D E,Cline C F,Zalkin A,et al.The beryllium-boron system[J].Acta Cryst,1961,14(3):309-310.
[4]Mattes R,Tebbe K F,Neidhard,et al.Die kristallstruktur von BeB₃[J].Z Anorg Allg Chem,1975,413(1):1-9.
[5]Chan J Y,Fronczek F R,Young D P,et al.Synthesis,structure,and superconductivity in Be_1.09B₃[J].J Solid State Chem,2002,163(2):385-389.
[6]B?y¨¹kata M,G¨¹venc Z B.Density functional study of AlB_n clusters for n=1-14[J].J Alloy Compd,2011,509(11):4 214-4 234.
[7]Yang Z,Xiong S J.Structures and electronic properties of small FeB_n(n=1-10)clusters[J].J Chem Phys,2008,128(18):1-8.
[8]Li Q S,Jin Q.Aromaticity of planar B^-₅ anion in the MB₅(M=Li,Na,K,Rb,and Cs)and MB⁵⁺(M=Be,Mg,Ca,and Sr)clusters[J].J Phys Chem A,2004,108(5):855-860.
[9]Li Q S,Jin Q.Theoretical study on the aromaticity of the pyramidal MB₆(M=Be,Mg,Ca,and Sr)clusters[J].J Phys Chem A,2003,107(39):7 869-7 873.
[10]Lee C,Yang W,Parr R G.Development of the Colle-Salvetti correlation-energy formula into a functional of the electron density[J].Phys Rev B,1988,37(2):785-789.
[11]Frisch M J,Trucks G W,Schlegel H B,et al.Gaussian 09,Revision A.02[M].Wallingford:Gaussian Inc,2009.
[12]´ÞÎÄÎÄ,Íõ³É,ÍõСÁÁ.ƽÃæB_nBe(n=1¡«7)ÍŴصĽṹºÍÎȶ¨ÐÔÀíÂÛÑо¿[J].ÄϾ©Ê¦´óѧ±¨:×ÔÈ»¿Æѧ°æ,2013,36(3):61-66.
[13]Ati ÿðþ ‰D M,?zdoª¡Dg¡¦ª£an C,G¨¹ven? Z B.Structure and energetic of B_n(n=2-12)clusters:electronic structure calculations[J].Nt J Quantum Chem,2006,173(3):729-744.
[14]Raghavachari K,Binkley J S.Structure,stability,and fragmentation of small carbon clusters[J].J Chem Phys,1987,87(4):2 191-2 197.
[15]Zubarev D Y,Boldyrev A I.Developing paradigms of chemical bonding:adaptive natural density partitioning[J].Phys Chem,2008,10:5 207-5 217.
[16]Lu T,Chen F W.Multiwfn:a multifunctional wavefunction analyzer[J].J Comput Chem,2012,33(5):580-592.
[17]Schleyer P R,Jiao H J,Hommes N J R E,et al.An evaluation of the aromaticity of inorganic rings:refined evidence from magnetic properties[J].J Am Chem Soc,1997,119(1):12 669-12 670.

Memo

Memo:

-

Common functions

Last Update: 2014-09-30