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• W3008276963 endingPage "020907" @default.
• W3008276963 startingPage "020907" @default.
• W3008276963 abstract "Energy consumption is one of the most important aspects of any electronic device which needs further improvements in order to achieve a better sustainable future. This is equally true for commercially available photodetectors, which consume a lot of energy by using huge external bias voltage. So far, thin films have been widely used for photodetection of various bands of electromagnetic radiation. The only property which holds them back is the slower performance and lower responsivity compared to nanostructure-based devices. However, the disadvantage associated with nanostructure-based photodetectors is that they lack scalability for mass production or commercialization, due to the complex and expensive device fabrication steps. One of the plausible solutions for this limitation could be the use of hybrid structures, which are the combination of high-quality crystal materials such as ZnO, (Al, Ga, In)N, and GaAs with 2D materials consisting of MoS2, graphene, WSe2, and SnS2. This would provide extensive control over bandgap engineering, which could be used for scalable modular device fabrication. These approaches promise the development of photodetectors with relatively higher responsivities as well as self-powered photodetection. The current perspective focuses on the advancements in III-nitride-based photodetectors and their promising potentials for self-powered, broadband, and ultrafast photodetectors using hybrid III-nitride/2D interfaces." @default.
• W3008276963 created "2020-03-06" @default.
• W3008276963 creator A5005834879 @default.
• W3008276963 creator A5026815469 @default.
• W3008276963 creator A5051211074 @default.
• W3008276963 creator A5055218274 @default.
• W3008276963 creator A5056620983 @default.
• W3008276963 creator A5068091756 @default.
• W3008276963 date "2020-02-01" @default.
• W3008276963 modified "2023-10-12" @default.
• W3008276963 title "Next-generation self-powered and ultrafast photodetectors based on III-nitride hybrid structures" @default.
• W3008276963 cites W1559671560 @default.
• W3008276963 cites W1771395156 @default.
• W3008276963 cites W1923084237 @default.
• W3008276963 cites W1982277071 @default.
• W3008276963 cites W1987596230 @default.
• W3008276963 cites W1988558817 @default.
• W3008276963 cites W1993947119 @default.
• W3008276963 cites W2004748030 @default.
• W3008276963 cites W2014990900 @default.
• W3008276963 cites W2016447052 @default.
• W3008276963 cites W2017871657 @default.
• W3008276963 cites W2029942898 @default.
• W3008276963 cites W2030927935 @default.
• W3008276963 cites W2034456872 @default.
• W3008276963 cites W2036606250 @default.
• W3008276963 cites W2049860164 @default.
• W3008276963 cites W2051510401 @default.
• W3008276963 cites W2054864723 @default.
• W3008276963 cites W2064711753 @default.
• W3008276963 cites W2070660281 @default.
• W3008276963 cites W2084717790 @default.
• W3008276963 cites W2092874891 @default.
• W3008276963 cites W2094597383 @default.
• W3008276963 cites W2117126599 @default.
• W3008276963 cites W2122039384 @default.
• W3008276963 cites W2130472546 @default.
• W3008276963 cites W2133983420 @default.
• W3008276963 cites W2139198477 @default.
• W3008276963 cites W2143982721 @default.
• W3008276963 cites W2194158774 @default.
• W3008276963 cites W2256087992 @default.
• W3008276963 cites W2267490589 @default.
• W3008276963 cites W2317279380 @default.
• W3008276963 cites W2331357645 @default.
• W3008276963 cites W2331708333 @default.
• W3008276963 cites W2341571974 @default.
• W3008276963 cites W2342451745 @default.
• W3008276963 cites W2397033678 @default.
• W3008276963 cites W2501168014 @default.
• W3008276963 cites W2556137505 @default.
• W3008276963 cites W2556846441 @default.
• W3008276963 cites W2557380637 @default.
• W3008276963 cites W2563892505 @default.
• W3008276963 cites W2590935033 @default.
• W3008276963 cites W2594907457 @default.
• W3008276963 cites W2595321307 @default.
• W3008276963 cites W2602941508 @default.
• W3008276963 cites W2611073575 @default.
• W3008276963 cites W2622213160 @default.
• W3008276963 cites W2729861091 @default.
• W3008276963 cites W2732586640 @default.
• W3008276963 cites W2733922649 @default.
• W3008276963 cites W2735708460 @default.
• W3008276963 cites W2738365975 @default.
• W3008276963 cites W2743655252 @default.
• W3008276963 cites W2755337172 @default.
• W3008276963 cites W2757622827 @default.
• W3008276963 cites W2761443578 @default.
• W3008276963 cites W2765779314 @default.
• W3008276963 cites W2766823022 @default.
• W3008276963 cites W2769408088 @default.
• W3008276963 cites W2771892099 @default.
• W3008276963 cites W2774435822 @default.
• W3008276963 cites W2784839576 @default.
• W3008276963 cites W2790189406 @default.
• W3008276963 cites W2790220686 @default.
• W3008276963 cites W2800302591 @default.
• W3008276963 cites W2806513721 @default.
• W3008276963 cites W2808581648 @default.
• W3008276963 cites W2883905390 @default.
• W3008276963 cites W2885032895 @default.
• W3008276963 cites W2885044536 @default.
• W3008276963 cites W2885958814 @default.
• W3008276963 cites W2902011393 @default.
• W3008276963 cites W2910996206 @default.
• W3008276963 cites W2912578372 @default.
• W3008276963 cites W2913796069 @default.
• W3008276963 cites W2917783764 @default.
• W3008276963 cites W2936373111 @default.
• W3008276963 cites W2955727874 @default.
• W3008276963 cites W2958074342 @default.
• W3008276963 cites W3101929953 @default.
• W3008276963 cites W3105513120 @default.
• W3008276963 cites W3124679368 @default.
• W3008276963 cites W4239234863 @default.
• W3008276963 cites W4251683674 @default.
• W3008276963 doi "https://doi.org/10.1063/1.5140689" @default.

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