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W3048159095 endingPage "4322" @default.
W3048159095 startingPage "4305" @default.
W3048159095 abstract "Realizing the substantial potential of bottom-up 1D semiconductor nanostructures in developing functional nanodevices calls for dedicated single-nanostructure bandgap engineering by various growth approaches. Although thermal evaporation has been advised as a facile approach for most semiconductors to form 1D nanostructures from bottom-up, its capability of achieving single-nanostructure bandgap engineering was considered a challenge. In 2011, we succeeded in the direct growth of composition-graded CdS1-x Se x (0 ≤ x ≤ 1) nanowires by upgrading the thermal-evaporation tube furnace with a home-made magnetic-pulling module. This report aims to provide a comprehensive review of the latest advances in the single-nanostructure bandgap engineering enabled by the magnetic-pulling thermal evaporation growth. The report begins with the description of different magnetic-pulling thermal evaporation strategies associated with diverse examples of composition-engineered 1D nanostructures. Following is an elaboration on their optoelectronic applications based on the resulting single-nanostructure bandgap engineering, including monolithic white-light sources, proof-of-concept asymmetric light propagation and wavelength splitters, monolithic multi-color and white-light lasers, broadband-response photodetectors, high-performance transistors, and recently the most exciting single-nanowire spectrometer. In the end, this report concludes with some personal perspectives on the directions toward which future research might be advanced." @default.
W3048159095 created "2020-08-13" @default.
W3048159095 creator A5009592764 @default.
W3048159095 creator A5021376482 @default.
W3048159095 creator A5049827208 @default.
W3048159095 date "2020-01-01" @default.
W3048159095 modified "2023-09-25" @default.
W3048159095 title "Single-nanostructure bandgap engineering enabled by magnetic-pulling thermal evaporation growth" @default.
W3048159095 cites W1550801008 @default.
W3048159095 cites W1608714691 @default.
W3048159095 cites W1633737559 @default.
W3048159095 cites W1671947740 @default.
W3048159095 cites W1965290876 @default.
W3048159095 cites W1966537667 @default.
W3048159095 cites W1967068087 @default.
W3048159095 cites W1968972573 @default.
W3048159095 cites W1975301362 @default.
W3048159095 cites W1976277045 @default.
W3048159095 cites W1976382848 @default.
W3048159095 cites W1979905159 @default.
W3048159095 cites W1983214946 @default.
W3048159095 cites W1983575465 @default.
W3048159095 cites W1986253620 @default.
W3048159095 cites W1987693322 @default.
W3048159095 cites W1988188501 @default.
W3048159095 cites W1988596310 @default.
W3048159095 cites W1989003819 @default.
W3048159095 cites W1989535189 @default.
W3048159095 cites W1990882518 @default.
W3048159095 cites W1995340960 @default.
W3048159095 cites W1999741705 @default.
W3048159095 cites W2001176550 @default.
W3048159095 cites W2003478788 @default.
W3048159095 cites W2007572102 @default.
W3048159095 cites W2009542643 @default.
W3048159095 cites W2013897755 @default.
W3048159095 cites W2016969279 @default.
W3048159095 cites W2019632632 @default.
W3048159095 cites W2020522706 @default.
W3048159095 cites W2023579904 @default.
W3048159095 cites W2024877844 @default.
W3048159095 cites W2027207617 @default.
W3048159095 cites W2030184008 @default.
W3048159095 cites W2031975877 @default.
W3048159095 cites W2034895802 @default.
W3048159095 cites W2035452716 @default.
W3048159095 cites W2035914140 @default.
W3048159095 cites W2036227661 @default.
W3048159095 cites W2038967305 @default.
W3048159095 cites W2038997903 @default.
W3048159095 cites W2041650030 @default.
W3048159095 cites W2044142418 @default.
W3048159095 cites W2049123852 @default.
W3048159095 cites W2050047301 @default.
W3048159095 cites W2052475119 @default.
W3048159095 cites W2053641118 @default.
W3048159095 cites W2059502436 @default.
W3048159095 cites W2062981086 @default.
W3048159095 cites W2063119449 @default.
W3048159095 cites W2063147530 @default.
W3048159095 cites W2063713374 @default.
W3048159095 cites W2066717602 @default.
W3048159095 cites W2067546549 @default.
W3048159095 cites W2072159029 @default.
W3048159095 cites W2074985513 @default.
W3048159095 cites W2075178505 @default.
W3048159095 cites W2077331019 @default.
W3048159095 cites W2080865815 @default.
W3048159095 cites W2081292304 @default.
W3048159095 cites W2084174647 @default.
W3048159095 cites W2085692716 @default.
W3048159095 cites W2086140183 @default.
W3048159095 cites W2087191037 @default.
W3048159095 cites W2089013789 @default.
W3048159095 cites W2090808985 @default.
W3048159095 cites W2093421311 @default.
W3048159095 cites W2095253276 @default.
W3048159095 cites W2098340589 @default.
W3048159095 cites W2108036736 @default.
W3048159095 cites W2108639457 @default.
W3048159095 cites W2114275520 @default.
W3048159095 cites W2115393493 @default.
W3048159095 cites W2122727913 @default.
W3048159095 cites W2128737428 @default.
W3048159095 cites W2133393856 @default.
W3048159095 cites W2134877490 @default.
W3048159095 cites W2136359657 @default.
W3048159095 cites W2137175716 @default.
W3048159095 cites W2138004775 @default.
W3048159095 cites W2147374024 @default.
W3048159095 cites W2151803418 @default.
W3048159095 cites W2152821536 @default.
W3048159095 cites W2161302876 @default.
W3048159095 cites W2163157308 @default.
W3048159095 cites W2164097541 @default.
W3048159095 cites W2165918737 @default.
W3048159095 cites W2171571134 @default.
W3048159095 cites W2195434322 @default.