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W2994358806 endingPage "104349" @default.
W2994358806 startingPage "104349" @default.
W2994358806 abstract "The conversion of low-value natural environmental energy into the clean and high-value electricity provides a promising approach for solving the energy crisis and environmental pollution. Using one device to directly convert all-weather environmental energy into electricity is an ideal goal and still remains a great challenge. Here, we assembled a simple and multifunctional device with the polyoxometalate (POM)/ethyl cellulose composite film on metal substrate, which generates electricity from multiple low-value all-weather environmental energy, including sunlight, wind and raindrops. For example, the optimal Mo72Cr30/ethyl cellulose composite film (Mo72Cr30 wt% = 71.4%) exhibits remarkable output performance with the responsivity of 176.3 μA W−1 under AM 1.5 G solar light, an average output of 4.48 μW m−2 from wind at a speed of 10 m s−1, and an average output of 0.25 μW m−2 from raindrops at a dripping rate of 7 mL min−1, as well as the better output power density of 6.32 μW m−2, 0.54 μW m−2 and 8.71 μW m−2 simultaneously driven by sunlight and wind, sunlight and raindrops, wind and raindrops, respectively. It also achieves an average output power density of 17.7 μW m−2, as well as long-term durability when it is simultaneously driven by sunlight, wind and raindrops, which exhibits 4 and 70 times than single wind and raindrops condition. For this composite film, the maximum power density is achieved at a very low resistance load of about 10 Ω. The output power arises from the high efficient transport of photo-generated electrons and electrostatic charges from Mo72Cr30 to metal substrate." @default.
W2994358806 created "2019-12-13" @default.
W2994358806 creator A5002864641 @default.
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W2994358806 creator A5087812683 @default.
W2994358806 date "2020-02-01" @default.
W2994358806 modified "2023-10-15" @default.
W2994358806 title "Polyoxometalate film simultaneously converts multiple low-value all-weather environmental energy to electricity" @default.
W2994358806 cites W1863872744 @default.
W2994358806 cites W1913589860 @default.
W2994358806 cites W1916351505 @default.
W2994358806 cites W1963303191 @default.
W2994358806 cites W1969929163 @default.
W2994358806 cites W1980216394 @default.
W2994358806 cites W1984836820 @default.
W2994358806 cites W1989483855 @default.
W2994358806 cites W1998723702 @default.
W2994358806 cites W2001777662 @default.
W2994358806 cites W2009609643 @default.
W2994358806 cites W2012222057 @default.
W2994358806 cites W2024892196 @default.
W2994358806 cites W2037880733 @default.
W2994358806 cites W2062051944 @default.
W2994358806 cites W2063013044 @default.
W2994358806 cites W2063013209 @default.
W2994358806 cites W2065670055 @default.
W2994358806 cites W2067581497 @default.
W2994358806 cites W2070457875 @default.
W2994358806 cites W2093531332 @default.
W2994358806 cites W2113664840 @default.
W2994358806 cites W2113737247 @default.
W2994358806 cites W2129042612 @default.
W2994358806 cites W2137422413 @default.
W2994358806 cites W2169112538 @default.
W2994358806 cites W2171478744 @default.
W2994358806 cites W2277673132 @default.
W2994358806 cites W2288421564 @default.
W2994358806 cites W2301070411 @default.
W2994358806 cites W2302954749 @default.
W2994358806 cites W2323963066 @default.
W2994358806 cites W2328255803 @default.
W2994358806 cites W2331244253 @default.
W2994358806 cites W2338787139 @default.
W2994358806 cites W2345384206 @default.
W2994358806 cites W2345484085 @default.
W2994358806 cites W2405055688 @default.
W2994358806 cites W2413403209 @default.
W2994358806 cites W2473899035 @default.
W2994358806 cites W2482666169 @default.
W2994358806 cites W2497524304 @default.
W2994358806 cites W2515229651 @default.
W2994358806 cites W2518932697 @default.
W2994358806 cites W2520162114 @default.
W2994358806 cites W2545851061 @default.
W2994358806 cites W2581150991 @default.
W2994358806 cites W2586894484 @default.
W2994358806 cites W2589661501 @default.
W2994358806 cites W2603706645 @default.
W2994358806 cites W2604946387 @default.
W2994358806 cites W2613340855 @default.
W2994358806 cites W2618861958 @default.
W2994358806 cites W2752773718 @default.
W2994358806 cites W2760351957 @default.
W2994358806 cites W2773428432 @default.
W2994358806 cites W2785850796 @default.
W2994358806 cites W2790117851 @default.
W2994358806 cites W2799340620 @default.
W2994358806 cites W2799857457 @default.
W2994358806 cites W2802849049 @default.
W2994358806 cites W2809893663 @default.
W2994358806 cites W2811262739 @default.
W2994358806 cites W2873865189 @default.
W2994358806 cites W2886838601 @default.
W2994358806 cites W2889188035 @default.
W2994358806 cites W2891856212 @default.
W2994358806 cites W2900987764 @default.
W2994358806 cites W2917691689 @default.
W2994358806 cites W2939550625 @default.
W2994358806 cites W2939686779 @default.
W2994358806 cites W2955777846 @default.
W2994358806 cites W4250418944 @default.
W2994358806 cites W656973856 @default.
W2994358806 doi "https://doi.org/10.1016/j.nanoen.2019.104349" @default.
W2994358806 hasPublicationYear "2020" @default.
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