Mapping Longitudinal Inhomogeneity in Nanostructures Using Cross-Sectional Spatial Raman Imaging

Tanwar, Manushree; Pathak, Devesh Kumar; Chaudhary, Anjali; Kumar, Rajesh

Please use this identifier to cite or link to this item: https://dspace.iiti.ac.in/handle/123456789/8061

Title:	Mapping Longitudinal Inhomogeneity in Nanostructures Using Cross-Sectional Spatial Raman Imaging
Authors:	Tanwar, Manushree Pathak, Devesh Kumar Chaudhary, Anjali Kumar, Rajesh
Keywords:	Nanocrystallites;Chemical techniques;Microscopic image;Microscopic levels;Physical phenomena;Quantum phenomena;Raman microscopy;Spectroscopic technique;Structural inhomogeneities;Blending
Issue Date:	2020
Publisher:	American Chemical Society
Citation:	Tanwar, M., Pathak, D. K., Chaudhary, A., Yogi, P., Saxena, S. K., & Kumar, R. (2020). Mapping longitudinal inhomogeneity in nanostructures using cross-sectional spatial raman imaging. ACS Applied Materials and Interfaces, doi:10.1021/acs.jpcc.0c01393
Abstract:	The presence of structural inhomogeneity and physical phenomena therein taking place at the microscopic level is very difficult to identify simultaneously using a holistic technique. Raman microscopy has been developed here and established for this purpose; it has been shown to successfully work on n- A nd p-type silicon nanowires, a well-known system otherwise, prepared using a chemical technique. A Raman microscopic image not only shows the presence of inhomogeneity in the nanocrystallites' size but also quantifies the size and its effect on microscopic quantum phenomena. The Raman image has been shown to be a good blend of microscopic and spectroscopic techniques. Copyright © 2020 American Chemical Society.
URI:	https://doi.org/10.1021/acs.jpcc.0c01393 https://dspace.iiti.ac.in/handle/123456789/8061
ISSN:	1944-8244
Type of Material:	Journal Article
Appears in Collections:	Department of Physics

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