Rohan Ramdas Patil

Works (6)

Updated: July 5th, 2023 15:41

2019 journal article

Light-Induced Structuring of Photosensitive Polymer Brushes

ACS APPLIED POLYMER MATERIALS, 1(11), 301–3026.

By: A. Kopyshev^*, K. Kanevche ^*, N. Lomadze ^*, E. Pfitzner ^*, S. Loebner^*, R. Patilⁿ, J. Genzerⁿ , J. Heberle ^*, S. Santer ^*

author keywords: photosensitive polymer brushes; reversible and irreversible structuring of polymer brushes; photosensitive azobenzene containing surfactant; strong polyelectrolyte brush; SRG formation in polymer brushes

10.1021/acsapm.9b00705

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UN Sustainable Development Goal Categories

6. Clean Water and Sanitation (Web of Science)

Sources: Web Of Science, NC State University Libraries

Added: December 2, 2019

2018 journal article

Kinetic Study of Degrafting Poly(methyl methacrylate) Brushes from Flat Substrates by Tetrabutylammonium Fluoride

MACROMOLECULES, 51(24), 10237–10245.

By: R. Patilⁿ, J. Milesⁿ, Y. Koⁿ, P. Dattaⁿ, B. Raoⁿ, D. Kiserow^*, J. Genzerⁿ

10.1021/acs.macromol.8b01832

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Sources: Web Of Science, NC State University Libraries

Added: January 14, 2019

2016 journal article

Light-Induced Reversible Change of Roughness and Thickness of Photosensitive Polymer Brushes

ACS APPLIED MATERIALS & INTERFACES, 8(29), 19175–19184.

By: A. Kopyshev^*, C. Galvinⁿ, R. Patilⁿ, J. Genzerⁿ , N. Lomadze ^*, D. Feldmann ^*, J. Zakrevski^*, S. Santer ^*

author keywords: photosensitive brushes; azobenzene containing surfactants; light driven reversible change of surface topography and thickness; domain memory in polymer brushes; orientation of azobenzenes in polymer brushes

TL;DR: The photomechanical function of the dry polymer brush was found to be reversible with repeated irradiation cycles and requires only a few seconds for switching, and the roughness of the brush also changes reversibly between a few Angstroms and several nanometers. (via Semantic Scholar)

10.1021/acsami.6b06881

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PubMed

UN Sustainable Development Goal Categories

7. Affordable and Clean Energy (Web of Science)

Sources: Web Of Science, NC State University Libraries

Added: August 6, 2018

2015 journal article

Creating surface patterns of polymer brushes by degrafting via tetrabutyl ammonium fluoride

RSC ADVANCES, 5(105), 86120–86125.

By: R. Patilⁿ, D. Kiserowⁿ & J. Genzerⁿ

10.1039/c5ra17000a

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Sources: Web Of Science, NC State University Libraries

Added: August 6, 2018

2015 journal article

Direct Measurement of Molecular Weight and Grafting Density by Controlled and Quantitative Degrafting of Surface-Anchored Poly(methyl methacrylate)

ACS MACRO LETTERS, 4(2), 251–254.

By: R. Patilⁿ, S. Turgman-Cohen ^*, J. Sroglⁿ, D. Kiserowⁿ & J. Genzerⁿ

10.1021/mz5007188

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PubMed

Sources: Web Of Science, NC State University Libraries

Added: August 6, 2018

2015 journal article

On-Demand Degrafting and the Study of Molecular Weight and Grafting Density of Poly(methyl methacrylate) Brushes on Flat Silica Substrates

LANGMUIR, 31(8), 2372–2381.

By: R. Patilⁿ, S. Turgman-Cohen ^*, J. Sroglⁿ, D. Kiserowⁿ & J. Genzerⁿ

TL;DR: The dry PMMA brush thickness and the number-average molecular weight suggest that the grafting density of the PMMA grafts is independent of polymerization time, indicating well-controlled/living growth of MMA and small but noticeable dependence of the polymer brush graftingdensity on the inhibitor/catalyst ratio. (via Semantic Scholar)

10.1021/la5044766

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PubMed

Sources: Web Of Science, NC State University Libraries

Added: August 6, 2018

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