2021
DOI: 10.1002/bkcs.12216
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Development of a MATLAB Algorithm for Calculating Reorganization Energy Utilizing Rectilinear Normal Mode Displacements: Investigation of the Effect of Substituents on Electron and Hole Reorganization Energies of Styryl‐Capped Silicon Quantum Dots

Abstract: We developed a MATLAB algorithm to calculate reorganization energy utilizing rectilinear normal mode displacements. Normal mode‐projected rectilinear displacements and the corresponding angular frequencies, required for evaluating charge transfer reorganization energy within the harmonic oscillator approximation, were obtained from Cartesian coordinates and Cartesian force constant matrices determined with respect to the principal axes. To verify the algorithm developed with MATLAB, we compared the computed ch… Show more

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“…Recently, we reported the analysis of Si quantum dots (QDs) based on Marcus theory. [44][45][46][47] This involves the charge-transfer rate between adjacent QDs and macroscopic concepts such as conductance (G), m, and D to calculate the activation energy and effective reorganization energy using the current-voltage characteristic method. The charge transport mechanism in the organic ligand-capped In 2 O 3 NC thin films is assumed to be NNH.…”
Section: The Relationship Between L and Diffusion Coefficient Dmentioning
confidence: 99%
“…Recently, we reported the analysis of Si quantum dots (QDs) based on Marcus theory. [44][45][46][47] This involves the charge-transfer rate between adjacent QDs and macroscopic concepts such as conductance (G), m, and D to calculate the activation energy and effective reorganization energy using the current-voltage characteristic method. The charge transport mechanism in the organic ligand-capped In 2 O 3 NC thin films is assumed to be NNH.…”
Section: The Relationship Between L and Diffusion Coefficient Dmentioning
confidence: 99%