分子纳米结构中电子能量转换的量子动力学

M. Kucherenko, T. M. Chmereva
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摘要

提出了聚甲基染料分子j聚集体层状纳米结构中电子能量传递的量子理论。给出了激子-等离子体键能随系统参数变化的表达式。测定了金属衬底表面等离子激子(SPPs)向j聚集体的Frenkel激子的非辐射F - oster共振能量转移速率,并得到了杂化态的色散依赖关系。实验结果表明,能量传递速率可达1012 ~ 1013 s-1,拉比分裂值可达100 MeV。研究了强激子-等离子体相互作用下该过程的动力学。系统各组分间能量交换的时间依赖性主要表现为阻尼振荡形式,这取决于弛豫参数、拉比频率和共振响应。此外,还研究了用纳米厚金属膜分离聚甲基染料j聚集体的两层平行单层间的激子FRET。结果表明,金属层的存在增加了FRET速率。研究了纳米细胞区一对三重态(T)分子在磁场中的自旋演化。考虑了二维势的参数对维间运动频率和三重态居数的影响。研究了携带自旋分子的自由表面扩散作用下铁磁球形纳米颗粒中分子T-T对的自旋动力学。
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Quantum Kinetics of the Electronic Energy Transformation in Molecular Nanostructures
A quantum theory of electronic energy transfer in a layered nanostructure with molecular J-aggregates of polymethine dyes was proposed. An expression for the exciton-plasmon bond energy depending on various parameters of the system was given. The rate of non-radiative Fὄrster resonance energy transfer (FRET) from surface plasmon polaritons (SPPs) of a metal substrate to Frenkel excitons of J-aggregates was determined and dispersion dependences for hybrid states were obtained. It was established that the energy transfer rate can reach values of 1012–1013 s–1, and the value of the Rabi splitting is up to 100 MeV. The kinetics of the process under strong exciton-plasmon interaction was investigated. The time dependence of the energy exchange between the system components had the form of damped oscillations depending on the relaxation parameters, the Rabi frequency, and the response to resonance. In addition, the exciton FRET between two parallel monolayers of J-aggregates of polymethine dyes separated by a nanometer-thick metal film was investigated. It was found that the presence of the metal layer increases the FRET rate. The spin evolution of a pair of two triplet (T) molecules localized in the nano-cell region under the over-barrier jumps regime in a magnetic field was studied. The influence of the parameters of the two-dimensional potential on the frequency of inter-dimensional motions and the population of triplets was considered. The spin dynamics of molecular T-T pairs in the magnetic field of a ferromagnetic globular nanoparticle under free surface diffusion of a spin-carrying molecule was investigated.
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