Default is to use a total of 4 processors: 4 via shared-memory 1 via Linda Entering Link 1 = C:\G09W\l1.exe PID= 4832. Copyright (c) 1988,1990,1992,1993,1995,1998,2003,2009,2013, Gaussian, Inc. All Rights Reserved. This is part of the Gaussian(R) 09 program. It is based on the Gaussian(R) 03 system (copyright 2003, Gaussian, Inc.), the Gaussian(R) 98 system (copyright 1998, Gaussian, Inc.), the Gaussian(R) 94 system (copyright 1995, Gaussian, Inc.), the Gaussian 92(TM) system (copyright 1992, Gaussian, Inc.), the Gaussian 90(TM) system (copyright 1990, Gaussian, Inc.), the Gaussian 88(TM) system (copyright 1988, Gaussian, Inc.), the Gaussian 86(TM) system (copyright 1986, Carnegie Mellon University), and the Gaussian 82(TM) system (copyright 1983, Carnegie Mellon University). Gaussian is a federally registered trademark of Gaussian, Inc. This software contains proprietary and confidential information, including trade secrets, belonging to Gaussian, Inc. 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By using this program, the user acknowledges that Gaussian, Inc. is engaged in the business of creating and licensing software in the field of computational chemistry and represents and warrants to the licensee that it is not a competitor of Gaussian, Inc. and that it will not use this program in any manner prohibited above. --------------------------------------------------------------- Cite this work as: Gaussian 09, Revision D.01, M. J. Frisch, G. W. Trucks, H. B. Schlegel, G. E. Scuseria, M. A. Robb, J. R. Cheeseman, G. Scalmani, V. Barone, B. Mennucci, G. A. Petersson, H. Nakatsuji, M. Caricato, X. Li, H. P. Hratchian, A. F. Izmaylov, J. Bloino, G. Zheng, J. L. Sonnenberg, M. Hada, M. Ehara, K. Toyota, R. Fukuda, J. Hasegawa, M. Ishida, T. Nakajima, Y. Honda, O. Kitao, H. Nakai, T. Vreven, J. A. Montgomery, Jr., J. E. Peralta, F. Ogliaro, M. Bearpark, J. J. Heyd, E. Brothers, K. N. Kudin, V. N. Staroverov, T. Keith, R. Kobayashi, J. Normand, K. Raghavachari, A. Rendell, J. C. Burant, S. S. Iyengar, J. Tomasi, M. Cossi, N. Rega, J. M. Millam, M. Klene, J. E. Knox, J. B. Cross, V. Bakken, C. Adamo, J. Jaramillo, R. Gomperts, R. E. Stratmann, O. Yazyev, A. J. Austin, R. Cammi, C. Pomelli, J. W. Ochterski, R. L. Martin, K. Morokuma, V. G. Zakrzewski, G. A. Voth, P. Salvador, J. J. Dannenberg, S. Dapprich, A. D. Daniels, O. Farkas, J. B. Foresman, J. V. Ortiz, J. Cioslowski, and D. J. Fox, Gaussian, Inc., Wallingford CT, 2013. ****************************************** Gaussian 09: EM64W-G09RevD.01 13-Apr-2013 06-Feb-2015 ****************************************** %chk=\\icnas3.cc.ic.ac.uk\yz13712\Desktop\3rdyearlab\day 4\NH3BH3_nbo.chk Default route: MaxDisk=10GB -------------------------------------------------------------------- # b3lyp/6-31g(d,p) pop=nbo geom=connectivity integral=grid=ultrafine -------------------------------------------------------------------- 1/38=1,57=2/1; 2/12=2,17=6,18=5,40=1/2; 3/5=1,6=6,7=101,11=2,16=1,25=1,30=1,74=-5,75=-5/1,2,3; 4//1; 5/5=2,38=5/2; 6/7=2,8=2,9=2,10=2,28=1,40=1/1,7; 99/5=1,9=1/99; ---------- NH3BH3_opt ---------- Symbolic Z-matrix: Charge = 0 Multiplicity = 1 H 0. 0.95076 -1.0968 H 0.82338 -0.47538 -1.0968 H -0.82338 -0.47538 -1.0968 H 0. -1.17099 1.24175 H 1.0141 0.58549 1.24175 H -1.0141 0.58549 1.24175 N 0. 0. -0.73127 B 0. 0. 0.9368 Input orientation: --------------------------------------------------------------------- Center Atomic Atomic Coordinates (Angstroms) Number Number Type X Y Z --------------------------------------------------------------------- 1 1 0 0.000000 0.950758 -1.096802 2 1 0 0.823380 -0.475379 -1.096802 3 1 0 -0.823380 -0.475379 -1.096802 4 1 0 0.000000 -1.170987 1.241745 5 1 0 1.014105 0.585494 1.241745 6 1 0 -1.014105 0.585494 1.241745 7 7 0 0.000000 0.000000 -0.731267 8 5 0 0.000000 0.000000 0.936801 --------------------------------------------------------------------- Distance matrix (angstroms): 1 2 3 4 5 1 H 0.000000 2 H 1.646760 0.000000 3 H 1.646760 1.646760 0.000000 4 H 3.157626 2.575001 2.575001 0.000000 5 H 2.575001 2.575001 3.157626 2.028209 0.000000 6 H 2.575001 3.157626 2.575001 2.028209 2.028209 7 N 1.018605 1.018605 1.018605 2.294338 2.294338 8 B 2.244879 2.244879 2.244879 1.210042 1.210042 6 7 8 6 H 0.000000 7 N 2.294338 0.000000 8 B 1.210042 1.668068 0.000000 Stoichiometry BH6N Framework group C3V[C3(BN),3SGV(H2)] Deg. of freedom 5 Full point group C3V NOp 6 Largest Abelian subgroup CS NOp 2 Largest concise Abelian subgroup CS NOp 2 Standard orientation: --------------------------------------------------------------------- Center Atomic Atomic Coordinates (Angstroms) Number Number Type X Y Z --------------------------------------------------------------------- 1 1 0 0.000000 0.950758 1.096800 2 1 0 -0.823380 -0.475379 1.096800 3 1 0 0.823380 -0.475379 1.096800 4 1 0 0.000000 -1.170987 -1.241747 5 1 0 -1.014105 0.585494 -1.241747 6 1 0 1.014105 0.585494 -1.241747 7 7 0 0.000000 0.000000 0.731265 8 5 0 0.000000 0.000000 -0.936803 --------------------------------------------------------------------- Rotational constants (GHZ): 73.4684122 17.4992492 17.4992492 Standard basis: 6-31G(d,p) (6D, 7F) There are 40 symmetry adapted cartesian basis functions of A' symmetry. There are 20 symmetry adapted cartesian basis functions of A" symmetry. There are 40 symmetry adapted basis functions of A' symmetry. There are 20 symmetry adapted basis functions of A" symmetry. 60 basis functions, 98 primitive gaussians, 60 cartesian basis functions 9 alpha electrons 9 beta electrons nuclear repulsion energy 40.4349447457 Hartrees. NAtoms= 8 NActive= 8 NUniq= 4 SFac= 4.00D+00 NAtFMM= 60 NAOKFM=F Big=F Integral buffers will be 131072 words long. Raffenetti 2 integral format. Two-electron integral symmetry is turned on. One-electron integrals computed using PRISM. NBasis= 60 RedAO= T EigKep= 1.10D-02 NBF= 40 20 NBsUse= 60 1.00D-06 EigRej= -1.00D+00 NBFU= 40 20 ExpMin= 1.27D-01 ExpMax= 4.17D+03 ExpMxC= 6.27D+02 IAcc=3 IRadAn= 5 AccDes= 0.00D+00 Harris functional with IExCor= 402 and IRadAn= 5 diagonalized for initial guess. HarFok: IExCor= 402 AccDes= 0.00D+00 IRadAn= 5 IDoV= 1 UseB2=F ITyADJ=14 ICtDFT= 3500011 ScaDFX= 1.000000 1.000000 1.000000 1.000000 FoFCou: FMM=F IPFlag= 0 FMFlag= 100000 FMFlg1= 0 NFxFlg= 0 DoJE=T BraDBF=F KetDBF=T FulRan=T wScrn= 0.000000 ICntrl= 500 IOpCl= 0 I1Cent= 200000004 NGrid= 0 NMat0= 1 NMatS0= 1 NMatT0= 0 NMatD0= 1 NMtDS0= 0 NMtDT0= 0 Petite list used in FoFCou. Initial guess orbital symmetries: Occupied (A1) (A1) (A1) (A1) (E) (E) (A1) (E) (E) Virtual (A1) (A1) (E) (E) (E) (E) (A1) (E) (E) (A1) (A1) (E) (E) (A1) (E) (E) (E) (E) (A1) (A1) (E) (E) (A1) (E) (E) (A1) (E) (E) (A2) (A2) (E) (E) (E) (E) (A1) (A1) (E) (E) (E) (E) (A1) (A1) (E) (E) (E) (E) (A1) (E) (E) (A1) (A1) The electronic state of the initial guess is 1-A1. Keep R1 ints in memory in symmetry-blocked form, NReq=2594021. Requested convergence on RMS density matrix=1.00D-08 within 128 cycles. Requested convergence on MAX density matrix=1.00D-06. Requested convergence on energy=1.00D-06. No special actions if energy rises. Integral accuracy reduced to 1.0D-05 until final iterations. Initial convergence to 1.0D-05 achieved. Increase integral accuracy. SCF Done: E(RB3LYP) = -83.2246889130 A.U. after 11 cycles NFock= 11 Conv=0.41D-08 -V/T= 2.0104 ********************************************************************** Population analysis using the SCF density. ********************************************************************** Orbital symmetries: Occupied (A1) (A1) (A1) (E) (E) (A1) (A1) (E) (E) Virtual (A1) (E) (E) (A1) (E) (E) (A1) (E) (E) (A1) (E) (E) (A1) (A1) (E) (E) (A1) (E) (E) (A1) (E) (E) (A1) (E) (E) (A1) (E) (E) (A2) (A2) (E) (E) (E) (E) (A1) (E) (E) (A1) (E) (E) (A1) (E) (E) (A1) (A1) (E) (E) (E) (E) (A1) (A1) The electronic state is 1-A1. Alpha occ. eigenvalues -- -14.41343 -6.67465 -0.94739 -0.54784 -0.54784 Alpha occ. eigenvalues -- -0.50377 -0.34682 -0.26699 -0.26699 Alpha virt. eigenvalues -- 0.02812 0.10580 0.10580 0.18568 0.22063 Alpha virt. eigenvalues -- 0.22063 0.24956 0.45500 0.45500 0.47855 Alpha virt. eigenvalues -- 0.65294 0.65294 0.66862 0.78872 0.80133 Alpha virt. eigenvalues -- 0.80133 0.88737 0.95655 0.95655 0.99942 Alpha virt. eigenvalues -- 1.18498 1.18498 1.44148 1.54901 1.54901 Alpha virt. eigenvalues -- 1.66068 1.76070 1.76070 2.00515 2.08658 Alpha virt. eigenvalues -- 2.18092 2.18092 2.27028 2.27028 2.29435 Alpha virt. eigenvalues -- 2.44309 2.44309 2.44798 2.69151 2.69151 Alpha virt. eigenvalues -- 2.72447 2.90641 2.90641 3.04019 3.16338 Alpha virt. eigenvalues -- 3.21876 3.21876 3.40167 3.40167 3.63707 Alpha virt. eigenvalues -- 4.11334 Condensed to atoms (all electrons): 1 2 3 4 5 6 1 H 0.418972 -0.021358 -0.021358 0.003400 -0.001439 -0.001439 2 H -0.021358 0.418972 -0.021358 -0.001439 -0.001439 0.003400 3 H -0.021358 -0.021358 0.418972 -0.001439 0.003400 -0.001439 4 H 0.003400 -0.001439 -0.001439 0.766715 -0.020038 -0.020038 5 H -0.001439 -0.001439 0.003400 -0.020038 0.766715 -0.020038 6 H -0.001439 0.003400 -0.001439 -0.020038 -0.020038 0.766715 7 N 0.338484 0.338484 0.338484 -0.027546 -0.027546 -0.027546 8 B -0.017535 -0.017535 -0.017535 0.417343 0.417343 0.417343 7 8 1 H 0.338484 -0.017535 2 H 0.338484 -0.017535 3 H 0.338484 -0.017535 4 H -0.027546 0.417343 5 H -0.027546 0.417343 6 H -0.027546 0.417343 7 N 6.475924 0.182847 8 B 0.182847 3.582086 Mulliken charges: 1 1 H 0.302272 2 H 0.302272 3 H 0.302272 4 H -0.116958 5 H -0.116958 6 H -0.116958 7 N -0.591584 8 B 0.035643 Sum of Mulliken charges = 0.00000 Mulliken charges with hydrogens summed into heavy atoms: 1 7 N 0.315232 8 B -0.315232 Electronic spatial extent (au): = 117.9535 Charge= 0.0000 electrons Dipole moment (field-independent basis, Debye): X= 0.0000 Y= 0.0000 Z= 5.5651 Tot= 5.5651 Quadrupole moment (field-independent basis, Debye-Ang): XX= -15.5751 YY= -15.5751 ZZ= -16.1082 XY= 0.0000 XZ= 0.0000 YZ= 0.0000 Traceless Quadrupole moment (field-independent basis, Debye-Ang): XX= 0.1777 YY= 0.1777 ZZ= -0.3554 XY= 0.0000 XZ= 0.0000 YZ= 0.0000 Octapole moment (field-independent basis, Debye-Ang**2): XXX= 0.0000 YYY= 1.5918 ZZZ= 18.3936 XYY= 0.0000 XXY= -1.5918 XXZ= 8.1087 XZZ= 0.0000 YZZ= 0.0000 YYZ= 8.1087 XYZ= 0.0000 Hexadecapole moment (field-independent basis, Debye-Ang**3): XXXX= -34.2964 YYYY= -34.2964 ZZZZ= -106.7228 XXXY= 0.0000 XXXZ= 0.0000 YYYX= 0.0000 YYYZ= 0.7843 ZZZX= 0.0000 ZZZY= 0.0000 XXYY= -11.4321 XXZZ= -23.5234 YYZZ= -23.5234 XXYZ= -0.7843 YYXZ= 0.0000 ZZXY= 0.0000 N-N= 4.043494474566D+01 E-N=-2.729564579838D+02 KE= 8.236638211610D+01 Symmetry A' KE= 7.822410035924D+01 Symmetry A" KE= 4.142281756854D+00 ******************************Gaussian NBO Version 3.1****************************** N A T U R A L A T O M I C O R B I T A L A N D N A T U R A L B O N D O R B I T A L A N A L Y S I S ******************************Gaussian NBO Version 3.1****************************** /RESON / : Allow strongly delocalized NBO set Analyzing the SCF density Job title: NH3BH3_opt Storage needed: 11124 in NPA, 14659 in NBO ( 268435056 available) NATURAL POPULATIONS: Natural atomic orbital occupancies NAO Atom No lang Type(AO) Occupancy Energy ---------------------------------------------------------- 1 H 1 S Val( 1S) 0.56150 0.09976 2 H 1 S Ryd( 2S) 0.00110 0.55199 3 H 1 px Ryd( 2p) 0.00022 2.29792 4 H 1 py Ryd( 2p) 0.00056 2.91464 5 H 1 pz Ryd( 2p) 0.00031 2.37499 6 H 2 S Val( 1S) 0.56150 0.09976 7 H 2 S Ryd( 2S) 0.00110 0.55199 8 H 2 px Ryd( 2p) 0.00048 2.76046 9 H 2 py Ryd( 2p) 0.00031 2.45210 10 H 2 pz Ryd( 2p) 0.00031 2.37499 11 H 3 S Val( 1S) 0.56150 0.09976 12 H 3 S Ryd( 2S) 0.00110 0.55199 13 H 3 px Ryd( 2p) 0.00048 2.76046 14 H 3 py Ryd( 2p) 0.00031 2.45210 15 H 3 pz Ryd( 2p) 0.00031 2.37499 16 H 4 S Val( 1S) 1.05827 0.04387 17 H 4 S Ryd( 2S) 0.00014 0.80212 18 H 4 px Ryd( 2p) 0.00001 2.33161 19 H 4 py Ryd( 2p) 0.00029 2.90375 20 H 4 pz Ryd( 2p) 0.00008 2.33620 21 H 5 S Val( 1S) 1.05827 0.04387 22 H 5 S Ryd( 2S) 0.00014 0.80212 23 H 5 px Ryd( 2p) 0.00022 2.76071 24 H 5 py Ryd( 2p) 0.00008 2.47464 25 H 5 pz Ryd( 2p) 0.00008 2.33620 26 H 6 S Val( 1S) 1.05827 0.04387 27 H 6 S Ryd( 2S) 0.00014 0.80212 28 H 6 px Ryd( 2p) 0.00022 2.76071 29 H 6 py Ryd( 2p) 0.00008 2.47464 30 H 6 pz Ryd( 2p) 0.00008 2.33620 31 N 7 S Cor( 1S) 1.99973 -14.26088 32 N 7 S Val( 2S) 1.43848 -0.67187 33 N 7 S Ryd( 3S) 0.00104 1.39021 34 N 7 S Ryd( 4S) 0.00000 3.83675 35 N 7 px Val( 2p) 1.44429 -0.27996 36 N 7 px Ryd( 3p) 0.00046 0.76248 37 N 7 py Val( 2p) 1.44429 -0.27996 38 N 7 py Ryd( 3p) 0.00046 0.76248 39 N 7 pz Val( 2p) 1.62710 -0.30118 40 N 7 pz Ryd( 3p) 0.00337 0.79996 41 N 7 dxy Ryd( 3d) 0.00029 2.38732 42 N 7 dxz Ryd( 3d) 0.00111 2.16251 43 N 7 dyz Ryd( 3d) 0.00111 2.16251 44 N 7 dx2y2 Ryd( 3d) 0.00029 2.38732 45 N 7 dz2 Ryd( 3d) 0.00004 2.30071 46 B 8 S Cor( 1S) 1.99948 -6.58903 47 B 8 S Val( 2S) 0.85099 0.04279 48 B 8 S Ryd( 3S) 0.00019 0.80499 49 B 8 S Ryd( 4S) 0.00001 3.57321 50 B 8 px Val( 2p) 0.95392 0.11550 51 B 8 px Ryd( 3p) 0.00097 0.44952 52 B 8 py Val( 2p) 0.95392 0.11550 53 B 8 py Ryd( 3p) 0.00097 0.44952 54 B 8 pz Val( 2p) 0.40526 0.09575 55 B 8 pz Ryd( 3p) 0.00133 0.48330 56 B 8 dxy Ryd( 3d) 0.00093 1.98433 57 B 8 dxz Ryd( 3d) 0.00008 1.70339 58 B 8 dyz Ryd( 3d) 0.00008 1.70339 59 B 8 dx2y2 Ryd( 3d) 0.00093 1.98433 60 B 8 dz2 Ryd( 3d) 0.00143 1.93878 Summary of Natural Population Analysis: Natural Population Natural ----------------------------------------------- Atom No Charge Core Valence Rydberg Total ----------------------------------------------------------------------- H 1 0.43631 0.00000 0.56150 0.00219 0.56369 H 2 0.43631 0.00000 0.56150 0.00219 0.56369 H 3 0.43631 0.00000 0.56150 0.00219 0.56369 H 4 -0.05878 0.00000 1.05827 0.00052 1.05878 H 5 -0.05878 0.00000 1.05827 0.00052 1.05878 H 6 -0.05878 0.00000 1.05827 0.00052 1.05878 N 7 -0.96209 1.99973 5.95417 0.00819 7.96209 B 8 -0.17048 1.99948 3.16409 0.00692 5.17048 ======================================================================= * Total * 0.00000 3.99921 13.97756 0.02323 18.00000 Natural Population -------------------------------------------------------- Core 3.99921 ( 99.9802% of 4) Valence 13.97756 ( 99.8397% of 14) Natural Minimal Basis 17.97677 ( 99.8709% of 18) Natural Rydberg Basis 0.02323 ( 0.1291% of 18) -------------------------------------------------------- Atom No Natural Electron Configuration ---------------------------------------------------------------------------- H 1 1S( 0.56) H 2 1S( 0.56) H 3 1S( 0.56) H 4 1S( 1.06) H 5 1S( 1.06) H 6 1S( 1.06) N 7 [core]2S( 1.44)2p( 4.52) B 8 [core]2S( 0.85)2p( 2.31) NATURAL BOND ORBITAL ANALYSIS: Occupancies Lewis Structure Low High Occ. ------------------- ----------------- occ occ Cycle Thresh. Lewis Non-Lewis CR BD 3C LP (L) (NL) Dev ============================================================================= 1(1) 1.90 17.95499 0.04501 2 7 0 0 0 0 0.01 ----------------------------------------------------------------------------- Structure accepted: No low occupancy Lewis orbitals -------------------------------------------------------- Core 3.99920 ( 99.980% of 4) Valence Lewis 13.95578 ( 99.684% of 14) ================== ============================ Total Lewis 17.95499 ( 99.750% of 18) ----------------------------------------------------- Valence non-Lewis 0.03580 ( 0.199% of 18) Rydberg non-Lewis 0.00921 ( 0.051% of 18) ================== ============================ Total non-Lewis 0.04501 ( 0.250% of 18) -------------------------------------------------------- (Occupancy) Bond orbital/ Coefficients/ Hybrids --------------------------------------------------------------------------------- 1. (1.99648) BD ( 1) H 1 - N 7 ( 27.86%) 0.5278* H 1 s( 99.90%)p 0.00( 0.10%) 0.9995 -0.0016 0.0000 -0.0312 -0.0049 ( 72.14%) 0.8494* N 7 s( 21.53%)p 3.64( 78.41%)d 0.00( 0.05%) 0.0000 0.4640 -0.0081 -0.0001 0.0000 0.0000 0.8160 0.0146 0.3435 0.0045 0.0000 0.0000 0.0199 -0.0114 -0.0021 2. (1.99648) BD ( 1) H 2 - N 7 ( 27.86%) 0.5278* H 2 s( 99.90%)p 0.00( 0.10%) -0.9995 0.0016 -0.0270 -0.0156 0.0049 ( 72.14%) 0.8494* N 7 s( 21.53%)p 3.64( 78.41%)d 0.00( 0.05%) 0.0000 -0.4640 0.0081 0.0001 0.7067 0.0126 0.4080 0.0073 -0.3435 -0.0045 -0.0098 0.0172 0.0099 -0.0057 0.0021 3. (1.99648) BD ( 1) H 3 - N 7 ( 27.86%) 0.5278* H 3 s( 99.90%)p 0.00( 0.10%) 0.9995 -0.0016 -0.0270 0.0156 -0.0049 ( 72.14%) 0.8494* N 7 s( 21.53%)p 3.64( 78.41%)d 0.00( 0.05%) 0.0000 0.4640 -0.0081 -0.0001 0.7067 0.0126 -0.4080 -0.0073 0.3435 0.0045 -0.0098 0.0172 -0.0099 0.0057 -0.0021 4. (1.99085) BD ( 1) H 4 - B 8 ( 53.13%) 0.7289* H 4 s( 99.97%)p 0.00( 0.03%) 0.9998 0.0002 0.0000 0.0162 0.0080 ( 46.87%) 0.6846* B 8 s( 28.18%)p 2.55( 71.73%)d 0.00( 0.09%) -0.0001 0.5308 0.0027 0.0000 0.0000 0.0000 -0.8161 0.0070 -0.2260 -0.0155 0.0000 0.0000 0.0040 -0.0253 -0.0157 5. (1.99085) BD ( 1) H 5 - B 8 ( 53.13%) 0.7289* H 5 s( 99.97%)p 0.00( 0.03%) 0.9998 0.0002 0.0140 -0.0081 0.0080 ( 46.87%) 0.6846* B 8 s( 28.18%)p 2.55( 71.73%)d 0.00( 0.09%) -0.0001 0.5308 0.0027 0.0000 -0.7067 0.0060 0.4080 -0.0035 -0.2260 -0.0155 -0.0219 0.0035 -0.0020 0.0127 -0.0157 6. (1.99085) BD ( 1) H 6 - B 8 ( 53.13%) 0.7289* H 6 s( 99.97%)p 0.00( 0.03%) 0.9998 0.0002 -0.0140 -0.0081 0.0080 ( 46.87%) 0.6846* B 8 s( 28.18%)p 2.55( 71.73%)d 0.00( 0.09%) -0.0001 0.5308 0.0027 0.0000 0.7067 -0.0060 0.4080 -0.0035 -0.2260 -0.0155 0.0219 -0.0035 -0.0020 0.0127 -0.0157 7. (1.99381) BD ( 1) N 7 - B 8 ( 81.89%) 0.9049* N 7 s( 35.34%)p 1.83( 64.66%)d 0.00( 0.00%) -0.0001 -0.5943 -0.0161 -0.0003 0.0000 0.0000 0.0000 0.0000 0.8029 -0.0434 0.0000 0.0000 0.0000 0.0000 0.0024 ( 18.11%) 0.4256* B 8 s( 15.49%)p 5.44( 84.25%)d 0.02( 0.26%) -0.0001 -0.3930 0.0205 -0.0003 0.0000 0.0000 0.0000 0.0000 -0.9175 -0.0261 0.0000 0.0000 0.0000 0.0000 -0.0507 8. (1.99973) CR ( 1) N 7 s(100.00%) 1.0000 -0.0001 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0001 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 9. (1.99947) CR ( 1) B 8 s(100.00%)p 0.00( 0.00%) 1.0000 0.0001 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 -0.0001 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 10. (0.00119) RY*( 1) H 1 s( 91.18%)p 0.10( 8.82%) 0.0017 0.9549 0.0000 -0.0415 0.2941 11. (0.00022) RY*( 2) H 1 s( 0.00%)p 1.00(100.00%) 0.0000 0.0000 1.0000 0.0000 0.0000 12. (0.00021) RY*( 3) H 1 s( 8.82%)p10.33( 91.18%) 0.0002 0.2970 0.0000 0.1385 -0.9448 13. (0.00001) RY*( 4) H 1 s( 0.10%)p99.99( 99.90%) 14. (0.00119) RY*( 1) H 2 s( 91.18%)p 0.10( 8.82%) 0.0017 0.9549 0.0359 0.0207 0.2941 15. (0.00022) RY*( 2) H 2 s( 0.00%)p 1.00(100.00%) 0.0000 0.0000 -0.5000 0.8660 0.0000 16. (0.00021) RY*( 3) H 2 s( 8.82%)p10.33( 91.18%) 0.0002 0.2970 -0.1199 -0.0692 -0.9448 17. (0.00001) RY*( 4) H 2 s( 0.10%)p99.99( 99.90%) 18. (0.00119) RY*( 1) H 3 s( 91.18%)p 0.10( 8.82%) 0.0017 0.9549 -0.0359 0.0207 0.2941 19. (0.00022) RY*( 2) H 3 s( 0.00%)p 1.00(100.00%) 0.0000 0.0000 0.5000 0.8660 0.0000 20. (0.00021) RY*( 3) H 3 s( 8.82%)p10.33( 91.18%) 0.0002 0.2970 0.1199 -0.0692 -0.9448 21. (0.00001) RY*( 4) H 3 s( 0.10%)p99.99( 99.90%) 22. (0.00014) RY*( 1) H 4 s( 97.97%)p 0.02( 2.03%) -0.0007 0.9898 0.0000 -0.0343 0.1384 23. (0.00001) RY*( 2) H 4 s( 0.00%)p 1.00(100.00%) 24. (0.00001) RY*( 3) H 4 s( 0.14%)p99.99( 99.86%) 25. (0.00001) RY*( 4) H 4 s( 1.92%)p50.95( 98.08%) 26. (0.00014) RY*( 1) H 5 s( 97.97%)p 0.02( 2.03%) -0.0007 0.9898 -0.0297 0.0172 0.1384 27. (0.00001) RY*( 2) H 5 s( 0.11%)p99.99( 99.89%) 28. (0.00001) RY*( 3) H 5 s( 0.04%)p99.99( 99.96%) 29. (0.00001) RY*( 4) H 5 s( 1.92%)p50.95( 98.08%) 30. (0.00014) RY*( 1) H 6 s( 97.97%)p 0.02( 2.03%) -0.0007 0.9898 0.0297 0.0172 0.1384 31. (0.00001) RY*( 2) H 6 s( 0.11%)p99.99( 99.89%) 32. (0.00001) RY*( 3) H 6 s( 0.04%)p99.99( 99.96%) 33. (0.00001) RY*( 4) H 6 s( 1.92%)p50.95( 98.08%) 34. (0.00048) RY*( 1) N 7 s( 59.91%)p 0.63( 37.73%)d 0.04( 2.36%) 0.0000 -0.0191 0.7731 -0.0316 0.0000 0.0000 0.0000 0.0000 0.0350 0.6133 0.0000 0.0000 0.0000 0.0000 -0.1535 35. (0.00032) RY*( 2) N 7 s( 0.00%)p 1.00( 0.38%)d99.99( 99.62%) 0.0000 0.0000 0.0000 0.0000 -0.0258 -0.0560 0.0000 0.0000 0.0000 0.0000 -0.2205 0.9734 0.0000 0.0000 0.0000 36. (0.00032) RY*( 3) N 7 s( 0.00%)p 1.00( 0.38%)d99.99( 99.62%) 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 -0.0258 -0.0560 0.0000 0.0000 0.0000 0.0000 0.9734 -0.2205 0.0000 37. (0.00003) RY*( 4) N 7 s( 38.63%)p 1.59( 61.31%)d 0.00( 0.06%) 38. (0.00000) RY*( 5) N 7 s( 99.68%)p 0.00( 0.32%)d 0.00( 0.00%) 39. (0.00000) RY*( 6) N 7 s( 0.00%)p 0.00( 0.01%)d 1.00( 99.99%) 40. (0.00000) RY*( 7) N 7 s( 0.00%)p 1.00( 99.69%)d 0.00( 0.31%) 41. (0.00000) RY*( 8) N 7 s( 0.00%)p 1.00( 99.67%)d 0.00( 0.33%) 42. (0.00000) RY*( 9) N 7 s( 0.00%)p 1.00( 0.02%)d99.99( 99.98%) 43. (0.00000) RY*(10) N 7 s( 1.85%)p 0.31( 0.57%)d52.75( 97.58%) 44. (0.00100) RY*( 1) B 8 s( 0.00%)p 1.00( 92.45%)d 0.08( 7.55%) 0.0000 0.0000 0.0000 0.0000 0.0133 0.9614 0.0000 0.0000 0.0000 0.0000 -0.1269 0.2436 0.0000 0.0000 0.0000 45. (0.00100) RY*( 2) B 8 s( 0.00%)p 1.00( 92.45%)d 0.08( 7.55%) 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0133 0.9614 0.0000 0.0000 0.0000 0.0000 0.2436 -0.1269 0.0000 46. (0.00067) RY*( 3) B 8 s( 1.84%)p50.81( 93.54%)d 2.51( 4.62%) 0.0000 0.0148 -0.0567 0.1224 0.0000 0.0000 0.0000 0.0000 -0.0470 0.9660 0.0000 0.0000 0.0000 0.0000 0.2149 47. (0.00002) RY*( 4) B 8 s( 98.99%)p 0.00( 0.14%)d 0.01( 0.87%) 48. (0.00000) RY*( 5) B 8 s( 98.41%)p 0.02( 1.59%)d 0.00( 0.00%) 49. (0.00000) RY*( 6) B 8 s( 0.00%)p 1.00( 1.81%)d54.31( 98.19%) 50. (0.00000) RY*( 7) B 8 s( 0.00%)p 1.00( 5.84%)d16.14( 94.16%) 51. (0.00000) RY*( 8) B 8 s( 0.00%)p 1.00( 6.04%)d15.57( 93.96%) 52. (0.00000) RY*( 9) B 8 s( 0.00%)p 1.00( 1.61%)d61.16( 98.39%) 53. (0.00000) RY*(10) B 8 s( 0.75%)p 6.79( 5.07%)d99.99( 94.18%) 54. (0.00812) BD*( 1) H 1 - N 7 ( 72.14%) 0.8494* H 1 s( 99.90%)p 0.00( 0.10%) 0.9995 -0.0016 0.0000 -0.0312 -0.0049 ( 27.86%) -0.5278* N 7 s( 21.53%)p 3.64( 78.41%)d 0.00( 0.05%) 0.0000 0.4640 -0.0081 -0.0001 0.0000 0.0000 0.8160 0.0146 0.3435 0.0045 0.0000 0.0000 0.0199 -0.0114 -0.0021 55. (0.00812) BD*( 1) H 2 - N 7 ( 72.14%) 0.8494* H 2 s( 99.90%)p 0.00( 0.10%) -0.9995 0.0016 -0.0270 -0.0156 0.0049 ( 27.86%) -0.5278* N 7 s( 21.53%)p 3.64( 78.41%)d 0.00( 0.05%) 0.0000 -0.4640 0.0081 0.0001 0.7067 0.0126 0.4080 0.0073 -0.3435 -0.0045 -0.0098 0.0172 0.0099 -0.0057 0.0021 56. (0.00812) BD*( 1) H 3 - N 7 ( 72.14%) 0.8494* H 3 s( 99.90%)p 0.00( 0.10%) 0.9995 -0.0016 -0.0270 0.0156 -0.0049 ( 27.86%) -0.5278* N 7 s( 21.53%)p 3.64( 78.41%)d 0.00( 0.05%) 0.0000 0.4640 -0.0081 -0.0001 0.7067 0.0126 -0.4080 -0.0073 0.3435 0.0045 -0.0098 0.0172 -0.0099 0.0057 -0.0021 57. (0.00206) BD*( 1) H 4 - B 8 ( 46.87%) 0.6846* H 4 s( 99.97%)p 0.00( 0.03%) -0.9998 -0.0002 0.0000 -0.0162 -0.0080 ( 53.13%) -0.7289* B 8 s( 28.18%)p 2.55( 71.73%)d 0.00( 0.09%) 0.0001 -0.5308 -0.0027 0.0000 0.0000 0.0000 0.8161 -0.0070 0.2260 0.0155 0.0000 0.0000 -0.0040 0.0253 0.0157 58. (0.00206) BD*( 1) H 5 - B 8 ( 46.87%) 0.6846* H 5 s( 99.97%)p 0.00( 0.03%) -0.9998 -0.0002 -0.0140 0.0081 -0.0080 ( 53.13%) -0.7289* B 8 s( 28.18%)p 2.55( 71.73%)d 0.00( 0.09%) 0.0001 -0.5308 -0.0027 0.0000 0.7067 -0.0060 -0.4080 0.0035 0.2260 0.0155 0.0219 -0.0035 0.0020 -0.0127 0.0157 59. (0.00206) BD*( 1) H 6 - B 8 ( 46.87%) 0.6846* H 6 s( 99.97%)p 0.00( 0.03%) -0.9998 -0.0002 0.0140 0.0081 -0.0080 ( 53.13%) -0.7289* B 8 s( 28.18%)p 2.55( 71.73%)d 0.00( 0.09%) 0.0001 -0.5308 -0.0027 0.0000 -0.7067 0.0060 -0.4080 0.0035 0.2260 0.0155 -0.0219 0.0035 0.0020 -0.0127 0.0157 60. (0.00526) BD*( 1) N 7 - B 8 ( 18.11%) 0.4256* N 7 s( 35.34%)p 1.83( 64.66%)d 0.00( 0.00%) 0.0001 0.5943 0.0161 0.0003 0.0000 0.0000 0.0000 0.0000 -0.8029 0.0434 0.0000 0.0000 0.0000 0.0000 -0.0024 ( 81.89%) -0.9049* B 8 s( 15.49%)p 5.44( 84.25%)d 0.02( 0.26%) 0.0001 0.3930 -0.0205 0.0003 0.0000 0.0000 0.0000 0.0000 0.9175 0.0261 0.0000 0.0000 0.0000 0.0000 0.0507 NHO Directionality and "Bond Bending" (deviations from line of nuclear centers) [Thresholds for printing: angular deviation > 1.0 degree] hybrid p-character > 25.0% orbital occupancy > 0.10e Line of Centers Hybrid 1 Hybrid 2 --------------- ------------------- ------------------ NBO Theta Phi Theta Phi Dev Theta Phi Dev ======================================================================================== 1. BD ( 1) H 1 - N 7 111.0 270.0 -- -- -- 67.3 90.0 1.7 2. BD ( 1) H 2 - N 7 111.0 30.0 -- -- -- 67.3 210.0 1.7 3. BD ( 1) H 3 - N 7 111.0 150.0 -- -- -- 67.3 330.0 1.7 4. BD ( 1) H 4 - B 8 75.4 90.0 -- -- -- 106.6 270.0 2.0 5. BD ( 1) H 5 - B 8 75.4 330.0 -- -- -- 106.6 150.0 2.0 6. BD ( 1) H 6 - B 8 75.4 210.0 -- -- -- 106.6 30.0 2.0 Second Order Perturbation Theory Analysis of Fock Matrix in NBO Basis Threshold for printing: 0.50 kcal/mol E(2) E(j)-E(i) F(i,j) Donor NBO (i) Acceptor NBO (j) kcal/mol a.u. a.u. =================================================================================================== within unit 1 1. BD ( 1) H 1 - N 7 / 45. RY*( 2) B 8 0.52 1.22 0.023 1. BD ( 1) H 1 - N 7 / 60. BD*( 1) N 7 - B 8 0.81 0.94 0.025 2. BD ( 1) H 2 - N 7 / 60. BD*( 1) N 7 - B 8 0.81 0.94 0.025 3. BD ( 1) H 3 - N 7 / 60. BD*( 1) N 7 - B 8 0.81 0.94 0.025 4. BD ( 1) H 4 - B 8 / 54. BD*( 1) H 1 - N 7 2.15 0.76 0.036 4. BD ( 1) H 4 - B 8 / 60. BD*( 1) N 7 - B 8 0.54 0.61 0.016 5. BD ( 1) H 5 - B 8 / 56. BD*( 1) H 3 - N 7 2.15 0.76 0.036 5. BD ( 1) H 5 - B 8 / 60. BD*( 1) N 7 - B 8 0.54 0.61 0.016 6. BD ( 1) H 6 - B 8 / 55. BD*( 1) H 2 - N 7 2.15 0.76 0.036 6. BD ( 1) H 6 - B 8 / 60. BD*( 1) N 7 - B 8 0.54 0.61 0.016 7. BD ( 1) N 7 - B 8 / 10. RY*( 1) H 1 0.73 1.32 0.028 7. BD ( 1) N 7 - B 8 / 14. RY*( 1) H 2 0.73 1.32 0.028 7. BD ( 1) N 7 - B 8 / 18. RY*( 1) H 3 0.73 1.32 0.028 7. BD ( 1) N 7 - B 8 / 54. BD*( 1) H 1 - N 7 1.47 1.02 0.035 7. BD ( 1) N 7 - B 8 / 55. BD*( 1) H 2 - N 7 1.47 1.02 0.035 7. BD ( 1) N 7 - B 8 / 56. BD*( 1) H 3 - N 7 1.47 1.02 0.035 8. CR ( 1) N 7 / 46. RY*( 3) B 8 0.92 14.87 0.104 8. CR ( 1) N 7 / 60. BD*( 1) N 7 - B 8 0.51 14.53 0.077 9. CR ( 1) B 8 / 60. BD*( 1) N 7 - B 8 1.02 6.86 0.075 Natural Bond Orbitals (Summary): Principal Delocalizations NBO Occupancy Energy (geminal,vicinal,remote) ==================================================================================== Molecular unit 1 (H6BN) 1. BD ( 1) H 1 - N 7 1.99648 -0.67477 60(g),45(v) 2. BD ( 1) H 2 - N 7 1.99648 -0.67477 60(g) 3. BD ( 1) H 3 - N 7 1.99648 -0.67477 60(g) 4. BD ( 1) H 4 - B 8 1.99085 -0.33981 54(v),60(g) 5. BD ( 1) H 5 - B 8 1.99085 -0.33981 56(v),60(g) 6. BD ( 1) H 6 - B 8 1.99085 -0.33981 55(v),60(g) 7. BD ( 1) N 7 - B 8 1.99381 -0.59796 54(g),55(g),56(g),10(v) 14(v),18(v) 8. CR ( 1) N 7 1.99973 -14.26075 46(v),60(g) 9. CR ( 1) B 8 1.99947 -6.58909 60(g) 10. RY*( 1) H 1 0.00119 0.71999 11. RY*( 2) H 1 0.00022 2.29792 12. RY*( 3) H 1 0.00021 2.15137 13. RY*( 4) H 1 0.00001 2.96011 14. RY*( 1) H 2 0.00119 0.71999 15. RY*( 2) H 2 0.00022 2.29792 16. RY*( 3) H 2 0.00021 2.15137 17. RY*( 4) H 2 0.00001 2.96011 18. RY*( 1) H 3 0.00119 0.71999 19. RY*( 2) H 3 0.00022 2.29792 20. RY*( 3) H 3 0.00021 2.15137 21. RY*( 4) H 3 0.00001 2.96011 22. RY*( 1) H 4 0.00014 0.83238 23. RY*( 2) H 4 0.00001 2.33161 24. RY*( 3) H 4 0.00001 2.90612 25. RY*( 4) H 4 0.00001 2.30137 26. RY*( 1) H 5 0.00014 0.83238 27. RY*( 2) H 5 0.00001 2.76259 28. RY*( 3) H 5 0.00001 2.47513 29. RY*( 4) H 5 0.00001 2.30137 30. RY*( 1) H 6 0.00014 0.83238 31. RY*( 2) H 6 0.00001 2.76259 32. RY*( 3) H 6 0.00001 2.47513 33. RY*( 4) H 6 0.00001 2.30137 34. RY*( 1) N 7 0.00048 1.25772 35. RY*( 2) N 7 0.00032 2.28892 36. RY*( 3) N 7 0.00032 2.28892 37. RY*( 4) N 7 0.00003 0.95480 38. RY*( 5) N 7 0.00000 3.82322 39. RY*( 6) N 7 0.00000 2.25285 40. RY*( 7) N 7 0.00000 0.76438 41. RY*( 8) N 7 0.00000 0.76598 42. RY*( 9) N 7 0.00000 2.25125 43. RY*( 10) N 7 0.00000 2.29889 44. RY*( 1) B 8 0.00100 0.54822 45. RY*( 2) B 8 0.00100 0.54822 46. RY*( 3) B 8 0.00067 0.60728 47. RY*( 4) B 8 0.00002 0.82440 48. RY*( 5) B 8 0.00000 3.51455 49. RY*( 6) B 8 0.00000 1.95200 50. RY*( 7) B 8 0.00000 1.63079 51. RY*( 8) B 8 0.00000 1.63810 52. RY*( 9) B 8 0.00000 1.94468 53. RY*( 10) B 8 0.00000 1.83580 54. BD*( 1) H 1 - N 7 0.00812 0.41800 55. BD*( 1) H 2 - N 7 0.00812 0.41800 56. BD*( 1) H 3 - N 7 0.00812 0.41800 57. BD*( 1) H 4 - B 8 0.00206 0.48687 58. BD*( 1) H 5 - B 8 0.00206 0.48687 59. BD*( 1) H 6 - B 8 0.00206 0.48687 60. BD*( 1) N 7 - B 8 0.00526 0.26753 ------------------------------- Total Lewis 17.95499 ( 99.7499%) Valence non-Lewis 0.03580 ( 0.1989%) Rydberg non-Lewis 0.00921 ( 0.0512%) ------------------------------- Total unit 1 18.00000 (100.0000%) Charge unit 1 0.00000 1|1| IMPERIAL COLLEGE-CHWS-269|SP|RB3LYP|6-31G(d,p)|B1H6N1|YZ13712|06- Feb-2015|0||# b3lyp/6-31g(d,p) pop=nbo geom=connectivity integral=grid =ultrafine||NH3BH3_opt||0,1|H,0,0.,0.95075754,-1.09680186|H,0,0.823380 18,-0.47537877,-1.09680186|H,0,-0.82338018,-0.47537877,-1.09680186|H,0 ,0.,-1.17098705,1.24174532|H,0,1.01410454,0.58549353,1.24174532|H,0,-1 .01410454,0.58549353,1.24174532|N,0,0.,0.,-0.73126678|B,0,0.,0.,0.9368 0122||Version=EM64W-G09RevD.01|State=1-A1|HF=-83.2246889|RMSD=4.084e-0 09|Dipole=0.,0.,-2.1894899|Quadrupole=0.1321132,0.1321132,-0.2642264,0 .,0.,0.|PG=C03V [C3(B1N1),3SGV(H2)]||@ DIATOMIC MOLECULES ARE PECULIAR BECAUSE THEY ONLY HAVE TWO ENDS, AND THESE ENDS ARE VERY CLOSE TOGETHER. KLAUS RUEDENBERG, REV.MOD.PHYS. PG 176, 32, (1960) Job cpu time: 0 days 0 hours 0 minutes 5.0 seconds. File lengths (MBytes): RWF= 5 Int= 0 D2E= 0 Chk= 1 Scr= 1 Normal termination of Gaussian 09 at Fri Feb 06 15:16:10 2015.