A-Site Cation Effect on Growth Thermodynamics and Photoconductive   Properties in Ultrapure Lead Iodine Perovskite Monocrystalline Wires

doi:10.1021/acsami.7605875

CORC > 北京大学 > 化学与分子工程学院

	A-Site Cation Effect on Growth Thermodynamics and Photoconductive Properties in Ultrapure Lead Iodine Perovskite Monocrystalline Wires
	Wang, Ligang ; Huang, Yuan ; Waleed, Aashir ; Wu, Ke ; Lin, Cong ; Wang, Zhengxu ; Zheng, Guanhaojie ; Fan, Zhiyong ; Sun, Junliang ; Zhou, Huanping ; Sun, Ling-Dong ; Yang, Chun-Hua
刊名	ACS APPLIED MATERIALS & INTERFACES
	2017
关键词	perovskite photodetector monocrystalline thermodynamics wire ORGANOMETAL HALIDE PEROVSKITE LIGHT-EMITTING-DIODES FIELD-EFFECT TRANSISTORS PERFORMANCE SOLAR-CELLS ROOM-TEMPERATURE NANOWIRE LASERS PHASE SYNTHESIS WAVE-GUIDES EFFICIENT FORMAMIDINIUM
DOI	10.1021/acsami.7605875
英文摘要	Among the various building blocks beyond polycrystalline thin films, perovskite wires have attracted extensive attention for potential applications including nano lasers, waveguides, field-effect transistors, and more. In this work, millimeter-scale lead iodine-based perovskite wires employing various A-site substitutions, namely, Cs, methylammonium (MA), and formamidinium (FA), have been synthesized via a new type solution method with nearly 100% yield. All of the three millimeter scale perovskite wires (MPWs) compositions exhibit relatively high quality, and CsPbI3 is proven to be monocrystalline along its entire length. Furthermore, the growth thermodynamics of the APbI(3) MPWs with respect to A-site cation effect were studied thoroughly by various characterization techniques. Finally, single MPW photodetectors have been fabricated utilizing the APbI(3) MPWs for studying the photoconductive properties, which show different sensitivities under illumination. This systematic synthesis method of solution-processed APbI(3) (Cs, MA, and FA) MPWs reveals a wide spectrum of additives with different coordination capability that mediates perovskite materials growth. It proved to serve as a new parameter that further aids in the rational process of the polycrystalline organic/inorganic hybrids materials. These MPWs also have the potential to open up new opportunities for integrated nanoelectronics ranging from the nanometer through millimeter length scales.; NSFC [21425101, 21321001, 21371011, 21331001, 51672008]; MOST of China [2014CB643800]; Young Talent Thousand Program; SCI(E); ARTICLE; 31; 25985-25994; 9
语种	英语
内容类型	期刊论文
源URL	[http://ir.pku.edu.cn/handle/20.500.11897/471543]
专题	化学与分子工程学院工学院
推荐引用方式 GB/T 7714	Wang, Ligang,Huang, Yuan,Waleed, Aashir,et al. A-Site Cation Effect on Growth Thermodynamics and Photoconductive Properties in Ultrapure Lead Iodine Perovskite Monocrystalline Wires[J]. ACS APPLIED MATERIALS & INTERFACES,2017.
APA	Wang, Ligang.,Huang, Yuan.,Waleed, Aashir.,Wu, Ke.,Lin, Cong.,...&Yang, Chun-Hua.(2017).A-Site Cation Effect on Growth Thermodynamics and Photoconductive Properties in Ultrapure Lead Iodine Perovskite Monocrystalline Wires.ACS APPLIED MATERIALS & INTERFACES.
MLA	Wang, Ligang,et al."A-Site Cation Effect on Growth Thermodynamics and Photoconductive Properties in Ultrapure Lead Iodine Perovskite Monocrystalline Wires".ACS APPLIED MATERIALS & INTERFACES (2017).