Charge-transfer matrix elements by FMO-LCMO approach: Hole transfer in DNA with parameter tuned range-separated DFT

Kitoh-Nishioka Hirotaka; Ando Koji

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Charge-transfer matrix elements by FMO-LCMO approach: Hole transfer in DNA with parameter tuned range-separated DFT

机译：通过FMO-LCMO方法进行的电荷转移基质元素：通过参数调整的距离分隔DFT在DNA中进行空穴转移

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A scheme for computing charge-transfer matrix elements with the linear combination of fragment molecular orbitals and the 'nonempirically tuned range-separated' density functional is presented. It takes account of the self-consistent orbital relaxation induced by environmental Coulomb field and the exchange interaction in fragment pairs at low computational scaling along the system size. The accuracy was confirmed numerically on benchmark systems of imidazole and furane homo-dimer cations. Applications to hole transfers in DNA nucleobase pairs and in a pi-stack adenine octomer highlight the effects of orbital relaxation. (C) 2015 Elsevier B.V. All rights reserved.

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《Chemical Physics Letters 》 |2015年第null期| 共6页
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Kitoh-Nishioka Hirotaka; Ando Koji;
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1. Charge-transfer matrix elements by FMO-LCMO approach: Hole transfer in DNA with parameter tuned range-separated DFT [J] . Kitoh-Nishioka Hirotaka, Ando Koji Chemical Physics Letters . 2015 ,第Null期

机译：通过FMO-LCMO方法进行的电荷转移基质元素：通过参数调整的距离分隔DFT在DNA中进行空穴转移
2. Computational modelling of singlet excitation energy transfer: a DFT/TD-DFT study of the ground and excited state properties of a syn bimane dimer system using non-empirically tuned range-separated functionals [J] . Wong Z. C., Fan W. Y., Chwee T. S. New Journal of Chemistry . 2018 ,第16期

机译：单线型激发能量传递的计算建模：使用非经验调谐范围分离功能的SYN BIMANE二聚体系统的地面和激发状态特性的DFT / TD-DFT研究
3. CHARGE-TRANSFER STATES IN DYE-SENSITIZED SOLAR CELLS AND LIGHT-HARVESTING MOLECULES: SUBSTANTIAL IMPROVEMENTS FROM RANGE-SEPARATED TIME-DEPENDENT DFT [J] . Bryan M. Wong American Chemical Society, Division of Fuel Chemistry, Preprints . 2012 ,第2期

机译：染料敏化太阳能电池和聚光分子中的电荷转移态：时域离散DFT的显着改进
4. CHARGE-TRANSFER STATES IN DYE-SENSITIZED SOLAR CELLS AND LIGHT-HARVESTING MOLECULES: SUBSTANTIAL IMPROVEMENTS FROM RANGE-SEPARATED TIME-DEPENDENT DFT [C] . Bryan M. Wong National Meeting Exhibition . 2012

机译：染料敏化太阳能电池和光收集分子的电荷转移状态：从范围分离的时间依赖性DFT的实质性改进
5. DYNAMICS OF DISTRIBUTED PARAMETER ROTOR SYSTEMS: TRANSFER MATRIX AND FINITE ELEMENT TECHNIQUES. [D] . RUHL, ROLAND LUTHER. 1970

机译：分布参数转子系统的动力学：传递矩阵和有限元技术。
6. Erratum to: Long-range corrected DFT calculations of charge-transfer integrals in model metal-free phthalocyanine complexes [O] . Mikołaj M. Mikołajczyk, Robert Zaleśny, Żaneta Czyżnikowska, -1

机译：勘误至：模型无金属酞菁配合物中电荷转移积分的远程校正DFT计算
7. Charge-transfer matrix elements by FMO-LCMO approach: Hole transfer in DNA with parameter tuned range-separated DFT [O] . Kitoh-Nishioka, Hirotaka, Ando, Koji 2015

机译：通过FMO-LCMO方法进行的电荷转移基质元素：通过参数调整的距离分隔DFT在DNA中进行空穴转移

Charge-transfer matrix elements by FMO-LCMO approach: Hole transfer in DNA with parameter tuned range-separated DFT

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