Computer simulations predict very anomalous delayed luminescence delayed luminescence decays for low-dimensional materials. Classical kinetics theory fails because excitons, electrons and holes have no convection. The mode of stirring plays a very important role in the rate of reactions.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/27422/1/0000460.pd
An experimental investigation of one-dimensional, diffusion-limited A+B→C chemical reactions is repo...
Fluorescence quenching studies were used to explore the validity of the Debye-Smoluchowski equation ...
Experimental measurements of exciton annihilation in isotopic mixed crystals of naphthalene-h8 in na...
Exciton and electron-hole recombination reactions were simulated on one-dimensional and fractal netw...
Diffusion-limited reaction kinetics becomes anomalous not only for fractals, with their anomalous di...
The kinetics laws of diffusion-controlled chemical reactions are drastically different from the conv...
The main task of this dissertation was to study the macroscopic kinetic laws and the particle distri...
The common goal among the different projects discussed in this thesis is the development of a better...
Diffusion-limited reaction kinetics becomes anomalous not only for fractals, with their anomalous di...
Recent low temperature a-Si:H photoluminescence experiments show the presence of two peaks in the li...
The non-classical kinetics of exciton recombination in restricted geometries provides the foundation...
We present results of numerical simulations of the kinetics of exciton–exciton annihilation of weakl...
Exciton and electron—hole recombination reactions were simulated on one-dimensional and fractal netw...
The time evolution of the fluorescence from a naphthalene "guest" and a betamethylnaphthalene "senso...
The spectrally resolved time-evolution of free and trapped singlet excitons was obtained at liquid-h...
An experimental investigation of one-dimensional, diffusion-limited A+B→C chemical reactions is repo...
Fluorescence quenching studies were used to explore the validity of the Debye-Smoluchowski equation ...
Experimental measurements of exciton annihilation in isotopic mixed crystals of naphthalene-h8 in na...
Exciton and electron-hole recombination reactions were simulated on one-dimensional and fractal netw...
Diffusion-limited reaction kinetics becomes anomalous not only for fractals, with their anomalous di...
The kinetics laws of diffusion-controlled chemical reactions are drastically different from the conv...
The main task of this dissertation was to study the macroscopic kinetic laws and the particle distri...
The common goal among the different projects discussed in this thesis is the development of a better...
Diffusion-limited reaction kinetics becomes anomalous not only for fractals, with their anomalous di...
Recent low temperature a-Si:H photoluminescence experiments show the presence of two peaks in the li...
The non-classical kinetics of exciton recombination in restricted geometries provides the foundation...
We present results of numerical simulations of the kinetics of exciton–exciton annihilation of weakl...
Exciton and electron—hole recombination reactions were simulated on one-dimensional and fractal netw...
The time evolution of the fluorescence from a naphthalene "guest" and a betamethylnaphthalene "senso...
The spectrally resolved time-evolution of free and trapped singlet excitons was obtained at liquid-h...
An experimental investigation of one-dimensional, diffusion-limited A+B→C chemical reactions is repo...
Fluorescence quenching studies were used to explore the validity of the Debye-Smoluchowski equation ...
Experimental measurements of exciton annihilation in isotopic mixed crystals of naphthalene-h8 in na...
DOI
Add to ORKG