Copper indium sulfide quantum dots (CIS QDs) and their core-shell analogues (CIS@ZnS QDs) were functionalized with pyrene chromophores via a dihydrolipoamide bifunctional binding moiety: UV excitation of the pyrene chromophores resulted in sensitized emission of the CIS core because of an efficient energy transfer process; the core-shell hybrid system exhibits a 50% increased brightness when excited at 345 nm.

Morselli, G., Gradone, A., Morandi, V., Ceroni, P. (2022). Light-harvesting antennae based on copper indium sulfide (CIS) quantum dots. NANOSCALE, 14(8), 3013-3019 [10.1039/d2nr00558a].

Light-harvesting antennae based on copper indium sulfide (CIS) quantum dots

Morselli G.;Gradone A.;Morandi V.;Ceroni P.
2022

Abstract

Copper indium sulfide quantum dots (CIS QDs) and their core-shell analogues (CIS@ZnS QDs) were functionalized with pyrene chromophores via a dihydrolipoamide bifunctional binding moiety: UV excitation of the pyrene chromophores resulted in sensitized emission of the CIS core because of an efficient energy transfer process; the core-shell hybrid system exhibits a 50% increased brightness when excited at 345 nm.
2022
Morselli, G., Gradone, A., Morandi, V., Ceroni, P. (2022). Light-harvesting antennae based on copper indium sulfide (CIS) quantum dots. NANOSCALE, 14(8), 3013-3019 [10.1039/d2nr00558a].
Morselli, G.; Gradone, A.; Morandi, V.; Ceroni, P.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/879330
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