Exploiting le Chatelier's principle for a one-pot synthesis of nontoxic HHogGNPs with the sharpest nanoscopic features suitable for tunable plasmon spectroscopy and high throughput SERS sensing

Kumar, Sourabh; Pathak, Biswarup

Please use this identifier to cite or link to this item: https://dspace.iiti.ac.in/handle/123456789/9144

Title:	Exploiting le Chatelier's principle for a one-pot synthesis of nontoxic HHogGNPs with the sharpest nanoscopic features suitable for tunable plasmon spectroscopy and high throughput SERS sensing
Authors:	Kumar, Sourabh Pathak, Biswarup
Keywords:	gold nanoparticle;sodium chloride;surfactant;addition reaction;anisotropy;Article;controlled study;environment;high throughput screening;nanomedicine;one pot synthesis;Raman spectrometry;room temperature
Issue Date:	2017
Publisher:	Royal Society of Chemistry
Citation:	Bhattacharya, M., Mazov, V., Satpati, B., Jena, P., Das Chakraborty, S., Kumar, S., . . . Senapati, D. (2017). Exploiting le chatelier's principle for a one-pot synthesis of nontoxic HHogGNPs with the sharpest nanoscopic features suitable for tunable plasmon spectroscopy and high throughput SERS sensing. Chemical Communications, 53(75), 10402-10405. doi:10.1039/c7cc05419j
Abstract:	Applying Le Chatelier's principle, a one-pot synthesis method is reported that generates highly anisotropic hedgehog gold nanoparticles (HHogGNPs), undemanding of a preformed seed or surfactant. These non-toxic HHogGNPs are potent candidates for nanomedicinal applications owing to their broad-band plasmon tunability, gigantic Raman enhancement and remarkable retention in a highly salted physiological environment. © The Royal Society of Chemistry 2017.
URI:	https://doi.org/10.1039/c7cc05419j https://dspace.iiti.ac.in/handle/123456789/9144
ISSN:	1359-7345
Type of Material:	Journal Article
Appears in Collections:	Department of Chemistry

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