Bacchiocchi Corrado, Hennebicq Emmanuelle, Orlandi Silvia, Muccioli Luca, Beljonne David, Zannoni Claudio
Dipartimento di Chimica Fisica e Inorganica and INSTM, Università di Bologna, Viale Risorgimento 4, Bologna, Italy.
J Phys Chem B. 2008 Feb 14;112(6):1752-60. doi: 10.1021/jp076732w. Epub 2008 Jan 19.
We propose a methodology for the realistic simulation and prediction of resonance energy transfer in condensed phases based on a combination of computer simulations of phase morphologies and of a distributed monopole model for the radiationless transfer. The heavy computational demands of the method are moderated by the introduction of a transition charges reduction scheme, originally developed for ground state interactions [Berardi, R. et al. Chem. Phys. Lett. 2004, 389, 373]. We demonstrate the scheme for a condensed glass phase formed by perylene monoimide end-capped 9,9-(di n,n)octylfluorene trimers, recently studied as light-harvesting materials, where we couple a coarse-grained Monte Carlo simulation of the molecular organization and a master equation approach modeling the energy diffusion process.
我们提出了一种方法,用于基于凝聚相中共振能量转移的真实模拟和预测,该方法结合了相形态的计算机模拟和用于无辐射转移的分布式单极子模型。通过引入最初为基态相互作用开发的过渡电荷减少方案[贝拉尔迪,R.等人。《化学物理快报》2004年,389卷,373页],该方法的高计算需求得到了缓解。我们展示了该方案在由苝单酰亚胺封端的9,9-(二n,n)辛基芴三聚体形成的凝聚玻璃相中的应用,该三聚体最近被作为光收集材料进行研究,我们在其中将分子组织的粗粒度蒙特卡罗模拟与模拟能量扩散过程的主方程方法相结合。
