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老师,您好,我最近计算了Si表面悬键Si-H键和Si-OH的能量,但得到Si-H键键能大于Si-OH的键能,这与实际不符,这令我十分困惑。我列出我的计算过程,还请您辛苦帮忙看一下是哪里出现了问题。
(1)我以您讲过的Si表面重构为模型,并通过阅读文献得知Si表面一般带一个H,所以,使硅表面带了一个H进行了硅表面的结构优化,具体的输入文件粘贴到下面,并用同样基组、k点和周期性下计算了这个体系的能量,能量为-171.075452660578 hartree
(2)将硅表面的一个氢原子删掉,计算剩下的体系的能量,k点与周期性的设置与结构优化的条件是一致的,其中体系电荷设置如下:CHARGE 1 #Net charge MULTIPLICITY 1 #Spin multiplicity,得到删掉一个氢原子的体系能量为-170.166387775155 hartree
(3)然后仅将第(2)步中被删掉的氢原子留下,计算H离子的能量,不设置k点与周期性,体系的电荷设置如下:CHARGE -1 #Net charge MULTIPLICITY 1 #Spin multiplicity,计算得到氢离子能量为-0.209587982101775 hartree,由此最终得到键能为0.6994 hartree
(4)按照同样的方法计算Si-OH键的键能,得到0.38367 hartree
老师,您看是否是我使体系带电荷的这一过程有误呢,这个过程我应该具体怎样操作更合理呢
#Generated by Multiwfn (http://sobereva.com/multiwfn)
&GLOBAL
PROJECT Si_H_opt_chonggou
PRINT_LEVEL LOW
RUN_TYPE GEO_OPT
&END GLOBAL
&FORCE_EVAL
METHOD Quickstep
&SUBSYS
&CELL
A 10.88740500 0.00000000 0.00000000
B 0.00000000 10.88740500 0.00000000
C 0.00000000 0.00000000 23.23897566
PERIODIC XY #Direction(s) of applied PBC (geometry aspect)
&END CELL
&COORD
Si 4.08277678 4.08277678 1.36092559
Si 0.19909321 2.92841916 2.74105836
Si 4.16945083 1.56582489 4.02661123
Si 1.44000634 4.28501672 4.17602838
Si 1.36092559 1.36092559 1.36092559
Si 2.80157169 0.08674533 2.73683959
Si 4.40446163 4.02971419 6.75968041
Si 0.03689972 0.22169344 5.46515939
Si 2.81713790 2.88317126 5.46410113
Si 1.66545119 1.30147214 6.76247074
H 2.20963049 2.20963049 0.51222070
H 4.65025780 5.06714196 0.53873539
H 3.36511149 2.91872145 1.03676376
H 0.12320537 0.76200170 1.08461945
Si 9.52647915 4.08277678 1.36092559
Si 5.64261228 2.92852219 2.74107831
Si 9.61337063 1.56524032 4.02610820
Si 6.88326913 4.28528870 4.17588000
Si 6.80462796 1.36092559 1.36092559
Si 8.24504329 0.08632579 2.73676347
Si 9.84755413 4.02982429 6.75925918
Si 5.48108270 0.22215903 5.46501289
Si 8.26112093 2.88327848 5.46275936
Si 7.11070421 1.30132367 6.76172011
H 7.65333286 2.20963049 0.51222070
H 10.09396017 5.06714196 0.53873539
H 8.80881386 2.91872145 1.03676376
H 5.56690774 0.76200170 1.08461945
Si 4.08277678 9.52647915 1.36092559
Si 0.19881140 8.37169066 2.74095052
Si 4.16937111 7.00875530 4.02729367
Si 1.43994678 9.72868292 4.17476268
Si 1.36092559 6.80462796 1.36092559
Si 2.80135468 5.53018693 2.73724276
Si 4.40444124 9.47463407 6.75685108
Si 0.03728392 5.66511913 5.46739676
Si 2.81648203 8.32711922 5.46324912
Si 1.66574965 6.74650300 6.76399605
H 2.20963049 7.65333286 0.51222070
H 4.65025780 10.51084433 0.53873539
H 3.36511149 8.36242382 1.03676376
H 0.12320537 6.20570407 1.08461945
Si 9.52647915 9.52647915 1.36092559
Si 5.64234074 8.37166520 2.74113924
Si 9.61376114 7.00812806 4.02700749
Si 6.88373932 9.72833566 4.17500798
Si 6.80462796 6.80462796 1.36092559
Si 8.24491808 5.52996875 2.73712901
Si 9.84782687 9.47392105 6.75765399
Si 5.48032334 5.66545991 5.46714403
Si 8.26084368 8.32637226 5.46283540
Si 7.10923562 6.74640873 6.76338823
H 7.65333286 7.65333286 0.51222070
H 10.09396017 10.51084433 0.53873539
H 8.80881386 8.36242382 1.03676376
H 5.56690774 6.20570407 1.08461945
H 9.41649644 9.86156443 8.12767905
H 9.41073414 4.42055578 8.12660638
H 6.72362017 1.73545115 8.13110510
H 3.97030053 4.42103129 8.12800879
H 1.27433070 1.73728913 8.13019593
H 6.71965427 7.18442537 8.13076352
H 3.97224735 9.86627464 8.12549499
H 1.27602177 7.18352334 8.13170853
&END COORD
&KIND Si
ELEMENT Si
BASIS_SET DZVP-MOLOPT-SR-GTH-q4
POTENTIAL GTH-PBE
&END KIND
&KIND H
ELEMENT H
BASIS_SET DZVP-MOLOPT-SR-GTH-q1
POTENTIAL GTH-PBE
&END KIND
&END SUBSYS
&DFT
BASIS_SET_FILE_NAME BASIS_MOLOPT
POTENTIAL_FILE_NAME POTENTIAL
# WFN_RESTART_FILE_NAME Si_H_opt_chonggou-RESTART.kp
CHARGE 0 #Net charge
MULTIPLICITY 1 #Spin multiplicity
&KPOINTS
SCHEME MONKHORST-PACK 2 2 1
&END KPOINTS
&QS
EPS_DEFAULT 1.0E-12 #Set all EPS_xxx to values such that the energy will be correct up to this value
# EXTRAPOLATION USE_PREV_P #Use converged density matrix of last geometry as initial guess
&END QS
&POISSON
PERIODIC XY #Direction(s) of PBC for calculating electrostatics
PSOLVER MT #The way to solve Poisson equation
&END POISSON
&XC
&XC_FUNCTIONAL PBE
&END XC_FUNCTIONAL
&END XC
&MGRID
CUTOFF 400
REL_CUTOFF 55
&END MGRID
&SCF
MAX_SCF 128
EPS_SCF 1.0E-06 #Convergence threshold of density matrix of inner SCF
# SCF_GUESS RESTART #Use wavefunction from WFN_RESTART_FILE_NAME file as initial guess
# IGNORE_CONVERGENCE_FAILURE #Continue calculation even if SCF not converged, works for version >= 2024.1
&DIAGONALIZATION
ALGORITHM STANDARD #Algorithm for diagonalization
&END DIAGONALIZATION
&MIXING #How to mix old and new density matrices
METHOD BROYDEN_MIXING #PULAY_MIXING is also a good alternative
ALPHA 0.4 #Default. Mixing 40% of new density matrix with the old one
NBROYDEN 8 #Default is 4. Number of previous steps stored for the actual mixing scheme
&END MIXING
&PRINT
&RESTART #Note: Use "&RESTART OFF" can prevent generating .wfn file
BACKUP_COPIES 0 #Maximum number of backup copies of wfn file. 0 means never
&END RESTART
&END PRINT
&END SCF
&END DFT
&END FORCE_EVAL
&MOTION
&GEO_OPT
TYPE MINIMIZATION #Search for minimum
KEEP_SPACE_GROUP F #If T, then space group will be detected and preserved
OPTIMIZER BFGS #Can also be CG (more robust for difficult cases) or LBFGS
&BFGS
TRUST_RADIUS 0.2 #Trust radius (maximum stepsize) in Angstrom
# RESTART_HESSIAN T #If read initial Hessian, uncomment this line and specify the file in the next line
# RESTART_FILE_NAME to_be_specified
&END BFGS
MAX_ITER 500 #Maximum number of geometry optimization
MAX_DR 3E-3 #Maximum geometry change
RMS_DR 1.5E-3 #RMS geometry change
MAX_FORCE 4.5E-4 #Maximum force
RMS_FORCE 3E-4 #RMS force
&END GEO_OPT
&CONSTRAINT
&FIXED_ATOMS #Set atoms to be fixed
COMPONENTS_TO_FIX XYZ #Which fractional components will be fixed, can be X, Y, Z, XY, XZ, YZ, XYZ
LIST 1 5 19 33 47 11 12 13 14 15 25 26 \
27 28 29 39 40 41 42 43 53 54 55 56
&END FIXED_ATOMS
&END CONSTRAINT
&PRINT
&TRAJECTORY
FORMAT xyz
&END TRAJECTORY
&RESTART
BACKUP_COPIES 0 #Maximum number of backing up restart file, 0 means never
&END RESTART
&END PRINT
&END MOTION
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发表于 Post on 2025-10-22 10:26:43
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发表于 Post on 2025-10-23 08:15:17
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