Sequential chiral induction between organic and inorganic supramolecular helical assemblies for the formation of chiral carbon dots
Self-organised helical bilayers of dicationic gemini surfactants confined in helical silica nanospace were transformed in situ to carbon dots (CDots) via pyrolysis. These water-dispersible CDots exhibit electronic absorption spanning the UV and visible range and possess symmetrical circular dichrois...
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Veröffentlicht in: | Chemical communications (Cambridge, England) England), 2023-08, Vol.59 (64), p.9762-9765 |
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creator | Pranee, Piyanan Scalabre, Antoine Labrugere, Christine Ryu, Naoya Yano, Akira Hano, Nanami Talaga, David Okazaki, Yutaka Pouget, Emilie Nlate, Sylvain Bonhommeau, Sébastien Takafuji, Makoto Wada, Takehiko Ihara, Hirotaka Buffeteau, Thierry Bassani, Dario M Oda, Reiko |
description | Self-organised helical bilayers of dicationic gemini surfactants confined in helical silica nanospace were transformed
in situ
to carbon dots (CDots)
via
pyrolysis. These water-dispersible CDots exhibit electronic absorption spanning the UV and visible range and possess symmetrical circular dichroism (CD) signals, the sign of which depends on the handedness of the helices.
Self-organised helical bilayers of dicationic gemini surfactants confined in helical silica nanospace were transformed
in situ
to carbon dots (CDots)
via
pyrolysis. |
doi_str_mv | 10.1039/d3cc02057f |
format | Article |
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in situ
to carbon dots (CDots)
via
pyrolysis. These water-dispersible CDots exhibit electronic absorption spanning the UV and visible range and possess symmetrical circular dichroism (CD) signals, the sign of which depends on the handedness of the helices.
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in situ
to carbon dots (CDots)
via
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in situ
to carbon dots (CDots)
via
pyrolysis. These water-dispersible CDots exhibit electronic absorption spanning the UV and visible range and possess symmetrical circular dichroism (CD) signals, the sign of which depends on the handedness of the helices.
Self-organised helical bilayers of dicationic gemini surfactants confined in helical silica nanospace were transformed
in situ
to carbon dots (CDots)
via
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in situ
to carbon dots (CDots)
via
pyrolysis. These water-dispersible CDots exhibit electronic absorption spanning the UV and visible range and possess symmetrical circular dichroism (CD) signals, the sign of which depends on the handedness of the helices.
Self-organised helical bilayers of dicationic gemini surfactants confined in helical silica nanospace were transformed
in situ
to carbon dots (CDots)
via
pyrolysis.</abstract><doi>10.1039/d3cc02057f</doi><tpages>4</tpages></addata></record> |
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source | Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection |
title | Sequential chiral induction between organic and inorganic supramolecular helical assemblies for the formation of chiral carbon dots |
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