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W3086733356 endingPage "127011" @default.
W3086733356 startingPage "127011" @default.
W3086733356 abstract "The conversion of CO2 into valuable chemicals utilizing solar energy is one of the most promising approaches to solve the problems associated with global warming and energy shortage. Considering more and more covalent organic frameworks (COFs) that have been reported, the great potential of COFs as photocatalysts for CO2 reduction is still appreciated to a limited extent. In the current work, Ru nanoparticles (NPs) loaded ketoamine-based COF (TpPa-1) catalysts, named Ru/TpPa-1, were developed for the photocatalytic reduction of CO2 upon visible-light irradiation for the first time. Compared with TpPa-1, Ru/TpPa-1 catalysts exhibit a significantly enhanced activity for the photoreduction of CO2. In combination with the results from some extensive characterizations, it is found that the interactions between the Ru NPs and TpPa-1 can enhance the visible-light harvesting and create a new way to extend the service life of photo-generated charge carriers via facilitating the electron transfer through the loaded Ru NPs. The current investigation, therefore, provides a photocatalytic approach for CO2 fixation, enriches the theory of photocatalysis, and enlarges the application of COF-based materials." @default.
W3086733356 created "2020-09-21" @default.
W3086733356 creator A5005823573 @default.
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W3086733356 creator A5079808010 @default.
W3086733356 creator A5081530560 @default.
W3086733356 date "2021-02-01" @default.
W3086733356 modified "2023-10-18" @default.
W3086733356 title "Boosting photocatalytic CO2 reduction over a covalent organic framework decorated with ruthenium nanoparticles" @default.
W3086733356 cites W1759412659 @default.
W3086733356 cites W1971865766 @default.
W3086733356 cites W2014111101 @default.
W3086733356 cites W2028478923 @default.
W3086733356 cites W2036833311 @default.
W3086733356 cites W2038477944 @default.
W3086733356 cites W2043961251 @default.
W3086733356 cites W2049145344 @default.
W3086733356 cites W2050571756 @default.
W3086733356 cites W2070880117 @default.
W3086733356 cites W2076242350 @default.
W3086733356 cites W2107212655 @default.
W3086733356 cites W2124893658 @default.
W3086733356 cites W2127360275 @default.
W3086733356 cites W2137818170 @default.
W3086733356 cites W2138737817 @default.
W3086733356 cites W2200821869 @default.
W3086733356 cites W2262193673 @default.
W3086733356 cites W2295840750 @default.
W3086733356 cites W2336851611 @default.
W3086733356 cites W2341179493 @default.
W3086733356 cites W2508217262 @default.
W3086733356 cites W2512944639 @default.
W3086733356 cites W2554066920 @default.
W3086733356 cites W2593558800 @default.
W3086733356 cites W2595052825 @default.
W3086733356 cites W2604705604 @default.
W3086733356 cites W2625569355 @default.
W3086733356 cites W2755762659 @default.
W3086733356 cites W2756361408 @default.
W3086733356 cites W2790830564 @default.
W3086733356 cites W2795151060 @default.
W3086733356 cites W2884922654 @default.
W3086733356 cites W2885340048 @default.
W3086733356 cites W2889604554 @default.
W3086733356 cites W2890183506 @default.
W3086733356 cites W2892360924 @default.
W3086733356 cites W2896446875 @default.
W3086733356 cites W2896804142 @default.
W3086733356 cites W2898262819 @default.
W3086733356 cites W2903132864 @default.
W3086733356 cites W2908716708 @default.
W3086733356 cites W2917560602 @default.
W3086733356 cites W2923333623 @default.
W3086733356 cites W2932158072 @default.
W3086733356 cites W2939043290 @default.
W3086733356 cites W2940422018 @default.
W3086733356 cites W2943854791 @default.
W3086733356 cites W2944445042 @default.
W3086733356 cites W2944518946 @default.
W3086733356 cites W2945345197 @default.
W3086733356 cites W2947806050 @default.
W3086733356 cites W2951684993 @default.
W3086733356 cites W2962676606 @default.
W3086733356 cites W2965114917 @default.
W3086733356 cites W2967219840 @default.
W3086733356 cites W2967316421 @default.
W3086733356 cites W2969786926 @default.
W3086733356 cites W2974836847 @default.
W3086733356 cites W2975044342 @default.
W3086733356 cites W2977837898 @default.
W3086733356 cites W2980115255 @default.
W3086733356 cites W2983509819 @default.
W3086733356 cites W2989350060 @default.
W3086733356 cites W2991301181 @default.
W3086733356 cites W2991639996 @default.
W3086733356 cites W2994751256 @default.
W3086733356 cites W2997236701 @default.
W3086733356 cites W2998179049 @default.
W3086733356 cites W3000818762 @default.
W3086733356 cites W3001822598 @default.
W3086733356 cites W3004411706 @default.
W3086733356 cites W3007807013 @default.
W3086733356 cites W3011683090 @default.
W3086733356 cites W3011780062 @default.
W3086733356 cites W3016375773 @default.
W3086733356 cites W3016760327 @default.
W3086733356 cites W3023105643 @default.
W3086733356 cites W3025733019 @default.
W3086733356 cites W3041352360 @default.
W3086733356 doi "https://doi.org/10.1016/j.cej.2020.127011" @default.
W3086733356 hasPublicationYear "2021" @default.
W3086733356 type Work @default.
W3086733356 sameAs 3086733356 @default.