Tutorial IV: TDDFT, solvation and QM/MM - Q-Chem I Time-dependent density functional theory (TDDFT)...
Transcript of Tutorial IV: TDDFT, solvation and QM/MM - Q-Chem I Time-dependent density functional theory (TDDFT)...
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Tutorial IV: TDDFT, solvation and QM/MM
Q-Chem User Workshop, Denver March 21, 2015
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Time-dependent density functional theory
Implicit solvation
QM/MM
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CIS
Configuration interaction singles:
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TDDFT
I Time-dependent density functional theory (TDDFT)computes the poles in the response of the ground stateenergy to a time-varying applied electric field.
I These poles correspond to excitation energies.I Its computation cost is roughly that of CIS, O(N2), but
includes correlation.I Dreuw and Head-Gordon, Chem Rev. 105, 4009 (2005).
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TDDFT Performance
I Pure (BLYP, PBE) and conventional hybrid functionals(B3LYP, PBE0): TDDFT performs well for low-lyingvalence transitions, and less well for Rydberg andcharge-transfer states.
I Long-range corrected functionals (ωB97X-D, LC-ωPBE,LC-ωPBEh, BNL, CAM-B3LYP): Can help improvedescription of Rydberg and charges transfer states.
I Meta functionals: M06-2X might perform reasonablywell.
I Isegawa, Peverati, and Truhlar, J. Chem. Phys. 137,244104 (2012).
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Spin-Flip DFT
I Based on a high-spin reference and is able to modelradicals, diradicals and systems with stretched bonds.
I Shao, Head-Gordon, and Krylov, 118, 4807 (2003).Bernard, Shao, and Krylov, 136, 204, 103 (2012).
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TDDFT setup
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TDDFT output
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Formaldehyde MOs
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Exercise 4.1
I Optimize ground-state geometry of formaldehyde withB3LYP/6-31G*
I Compute vertical TDDFT/TDA and full TDDFT excitationenergies with B3LYP/6-31G*
I Hint: Full TDDFT requires “RPA TRUE”I Compute vertical TDDFT/TDA and full TDDFT excitation
energies with ωB97X-D/6-31G*.
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Results
TDDFT and TDDFT/TDA vertical excitation energies forformaldehyde at ground-state B3LYP/6-31G* geometry.
State B3LYP ωB97X-DTDA TDDFT TDA TDDFT
1 4.1096 4.0889 4.1072 4.07932 9.1450 9.0975 9.3622 9.27713 9.2598 9.1802 9.6512 9.60094 10.1910 9.8036 10.4136 9.9362
In actual calculations, triple-ζ or larger basis might be needed.
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Time-dependent density functional theory
Implicit solvation
QM/MM
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Implicit solvation models
Q-CHEM supports several advanced implicit solvation modelsI PCMI COSMOI SM8I SM12, SM12MK, SM12CHELPGI Prof. John Herbert’s webinar:
https://www.youtube.com/watch?v=rsWdDwXzaQY
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PCM model
SWIG-PCM model yields continuous potential energy surface.
Lange & Herbert, JCP 133, 244111 (2010); JPCL 1, 556 (2010).
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Input setup
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PCM results
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SM8 results
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Exercise 4.2
I Use B3LYP/6-31G* geometry for formaldehyde
I Compute PCM solvation free energy
I Compute SM8 solvation free energy
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Time-dependent density functional theory
Implicit solvation
QM/MM
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Effective Fragment Potential
I Fully ab initio:NO empirical parameters.
I 4 components of interactionenergy: electrostatics,polarization, dispersion, andexchange-repulsion.
I Electronic embedding.I Polarizable solute.
I Gordon, Fedorov, Pruitt, and Slipchenko, Chem Rev, 112,632 (2012).
I Ghosh, Kosenkov, Vanovschi, Flick, Kaliman, Shao,Gilbert, Krylov, and Slipchenko, JCC, 34, 1060 (2013).
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EFP benchmark
I Ghosh, Roy, Seidel, Winter, Bradforth, and Krylov,JPCB 116, 7269 (2012).
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EFP calculation setup
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Exercise 4.3
I Add an EFP water next to formaldehydeI Compute TDDFT/TDA vertical excitation
energies using B3LYP/6-31G*I Compare energies to gas-phase
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