SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4376605612> ?p ?o ?g. }

Showing items 1 to 100 of ±203 with 100 items per page.

W4376605612 endingPage "11414" @default.
W4376605612 startingPage "11402" @default.
W4376605612 abstract "Sensitized triplet–triplet annihilation upconversion is a promising strategy to use visible light for chemical reactions requiring the energy input of UV photons. This strategy avoids unsafe ultraviolet light sources and can mitigate photo-damage and provide access to reactions, for which filter effects hamper direct UV excitation. Here, we report a new approach to make blue-to-UV upconversion more amenable to photochemical applications. The tethering of a naphthalene unit to a cyclometalated iridium(III) complex yields a bichromophore with a high triplet energy (2.68 eV) and a naphthalene-based triplet reservoir featuring a lifetime of 72.1 μs, roughly a factor of 20 longer than the photoactive excited state of the parent iridium(III) complex. In combination with three different annihilators, consistently lower thresholds for the blue-to-UV upconversion to crossover from a quadratic into a linear excitation power dependence regime were observed with the bichromophore compared to the parent iridium(III) complex. The upconversion system composed of the bichromophore and the 2,5-diphenyloxazole annihilator is sufficiently robust under long-term blue irradiation to continuously provide a high-energy singlet-excited state that can drive chemical reactions normally requiring UV light. Both photoredox and energy transfer catalyses were feasible using this concept, including the reductive N–O bond cleavage of Weinreb amides, a C–C coupling reaction based on reductive aryl debromination, and two Paternò–Büchi [2 + 2] cycloaddition reactions. Our work seems relevant in the context of developing new strategies for driving energetically demanding photochemistry with low-energy input light." @default.
W4376605612 created "2023-05-17" @default.
W4376605612 creator A5000683714 @default.
W4376605612 creator A5006064125 @default.
W4376605612 creator A5019575526 @default.
W4376605612 creator A5042264834 @default.
W4376605612 creator A5056803015 @default.
W4376605612 date "2023-05-15" @default.
W4376605612 modified "2023-10-14" @default.
W4376605612 title "Metal–Organic Bichromophore Lowers the Upconversion Excitation Power Threshold and Promotes UV Photoreactions" @default.
W4376605612 cites W1948254412 @default.
W4376605612 cites W1965574983 @default.
W4376605612 cites W1975978668 @default.
W4376605612 cites W1983090954 @default.
W4376605612 cites W1984889541 @default.
W4376605612 cites W1988743444 @default.
W4376605612 cites W1989455648 @default.
W4376605612 cites W1996001691 @default.
W4376605612 cites W2001131432 @default.
W4376605612 cites W2017779274 @default.
W4376605612 cites W2020120829 @default.
W4376605612 cites W2035725612 @default.
W4376605612 cites W2040583738 @default.
W4376605612 cites W2047682667 @default.
W4376605612 cites W2051534961 @default.
W4376605612 cites W2055727254 @default.
W4376605612 cites W2072486401 @default.
W4376605612 cites W2072531868 @default.
W4376605612 cites W2078086431 @default.
W4376605612 cites W2078426718 @default.
W4376605612 cites W2083381152 @default.
W4376605612 cites W2099058017 @default.
W4376605612 cites W2102296744 @default.
W4376605612 cites W2105144827 @default.
W4376605612 cites W2116452777 @default.
W4376605612 cites W2130890794 @default.
W4376605612 cites W2136044568 @default.
W4376605612 cites W2136303879 @default.
W4376605612 cites W2137249141 @default.
W4376605612 cites W2138530957 @default.
W4376605612 cites W2156538064 @default.
W4376605612 cites W2161940252 @default.
W4376605612 cites W2275473716 @default.
W4376605612 cites W2289285814 @default.
W4376605612 cites W2329304980 @default.
W4376605612 cites W2331283941 @default.
W4376605612 cites W2408035574 @default.
W4376605612 cites W2493041787 @default.
W4376605612 cites W2539373824 @default.
W4376605612 cites W2620540770 @default.
W4376605612 cites W2783189413 @default.
W4376605612 cites W2786993541 @default.
W4376605612 cites W2794166887 @default.
W4376605612 cites W2803877993 @default.
W4376605612 cites W2809577266 @default.
W4376605612 cites W2850871673 @default.
W4376605612 cites W2884691261 @default.
W4376605612 cites W2896887459 @default.
W4376605612 cites W2906401938 @default.
W4376605612 cites W2910387602 @default.
W4376605612 cites W2964522281 @default.
W4376605612 cites W2967309462 @default.
W4376605612 cites W2969856865 @default.
W4376605612 cites W2970947361 @default.
W4376605612 cites W2976483740 @default.
W4376605612 cites W2978476309 @default.
W4376605612 cites W2979756028 @default.
W4376605612 cites W2982535502 @default.
W4376605612 cites W2983188263 @default.
W4376605612 cites W2991637027 @default.
W4376605612 cites W2999341611 @default.
W4376605612 cites W2999868703 @default.
W4376605612 cites W3010548585 @default.
W4376605612 cites W3022379707 @default.
W4376605612 cites W3024293584 @default.
W4376605612 cites W3036178300 @default.
W4376605612 cites W3043664598 @default.
W4376605612 cites W3047031488 @default.
W4376605612 cites W3048386288 @default.
W4376605612 cites W3081943925 @default.
W4376605612 cites W3082245059 @default.
W4376605612 cites W3084773683 @default.
W4376605612 cites W3086200452 @default.
W4376605612 cites W3093080996 @default.
W4376605612 cites W3093607567 @default.
W4376605612 cites W3106297164 @default.
W4376605612 cites W3119762352 @default.
W4376605612 cites W3129844696 @default.
W4376605612 cites W3143715913 @default.
W4376605612 cites W3162302957 @default.
W4376605612 cites W3167438841 @default.
W4376605612 cites W3176104037 @default.
W4376605612 cites W3184540670 @default.
W4376605612 cites W3190055090 @default.
W4376605612 cites W3196269373 @default.
W4376605612 cites W3201215270 @default.
W4376605612 cites W3207173805 @default.
W4376605612 cites W3212416448 @default.