UV-Vis spectroscopic analysis of nanoparticles
This document provides the MATLAB workflow on " Kinetics and Mechanism of Metal Nanoparticle Growth via Optical Extinction Spectroscopy and Computational Modeling: The Curious Case of Colloidal Gold ". The sequence starting from raw intensity signals to final kinetic outputs is as follows:
1) spectraTreatment
2) optimSeedsGrown
3) optimNoninteract
4) optimGEM
5) paperFigs
Step-by-step guidance is provided in the form of comments throughout the scripts and codes. Please contact us for any further questions.
Please cite our article if you used the computational framework:
Andalibi, M. R., Wokaun, A., Bowen, P., & Testino, A. (2019). Kinetics and Mechanism of Metal Nanoparticle Growth via Optical Extinction Spectroscopy and Computational Modeling: The Curious Case of Colloidal Gold. ACS nano. doi.org/10.1021/acsnano.9b04981
https://pubs.acs.org/doi/abs/10.1021/acsnano.9b04981
Cite As
Andalibi, M. Reza, et al. “Kinetics and Mechanism of Metal Nanoparticle Growth via Optical Extinction Spectroscopy and Computational Modeling: The Curious Case of Colloidal Gold.” ACS Nano, American Chemical Society (ACS), Sept. 2019, doi:10.1021/acsnano.9b04981.
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- AI, Data Science, and Statistics > Statistics and Machine Learning Toolbox > ANOVA >
- Sciences > Chemistry > Chemical Spectroscopy >
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paperGNP_Andalibi_et_al_MATLAB
paperGNP_Andalibi_et_al_MATLAB/BesselType_Functions
paperGNP_Andalibi_et_al_MATLAB/colorRGB
paperGNP_Andalibi_et_al_MATLAB/rodyo-FEX-minimize
paperGNP_Andalibi_et_al_MATLAB/rodyo-FEX-minimize/html
paperGNP_Andalibi_et_al_MATLAB/rodyo-FEX-minimize/html/minimize_demo
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1.0.0 |