Synthesis of Semiconducting Functional Materials in Solution: From II-VI Semiconductor to Inorganic-Organic Hybrid Semiconductor Nanomaterials

Wei-Tang Yao; Shu-Hong Yu

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Synthesis of Semiconducting Functional Materials in Solution: From II-VI Semiconductor to Inorganic-Organic Hybrid Semiconductor Nanomaterials

机译：溶液中半导体功能材料的合成：从II-VI半导体到无机有机混合半导体纳米材料

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This Feature Article provides a brief overview of the latest development and emerging new synthesis solution strategies for II-VI semiconducting nanomaterials and inorganic-organic semiconductor hybrid materials. Research on the synthesis of II-VI semiconductor nanomaterials and inorganic-organic hybrid semiconducting materials via solution strategies has made great progress in the past few years. A variety of II-VI semiconductor and a new family of [MQ(L)_(0.5)] (M = Mn, Zn, Cd; Q = S, Se, Te; L = diamine, deta) hybrid nanostructures can be generated using solution synthetic routes. Recent advances have demonstrated that the solution strategies in pure solvent and a mixed solvent can not only determine the crystal size, shape, composition, structure and assembly properties, but also the crystallization pathway, and act as a matrix for the formation of a variety of different II-VI semiconductor and hybrid nanocomposites with diverse morphologies. These II-VI semiconductor nanostructures and their hybrid nanocomposites display obvious quantum size effects, unique and tunable optical properties.

机译：这篇专题文章简要概述了II-VI型半导体纳米材料和无机-有机半导体杂化材料的最新发展和新兴的合成解决方案策略。近年来，通过溶液策略合成II-VI族半导体纳米材料和无机-有机杂化半导体材料的研究取得了很大进展。可以生成多种II-VI半导体和新的[MQ（L）_（0.5）]系列（M = Mn，Zn，Cd； Q = S，Se，Te； L =二胺，deta）杂化纳米结构使用溶液合成路线。最近的进展表明，在纯溶剂和混合溶剂中的溶液策略不仅可以确定晶体的尺寸，形状，组成，结构和组装特性，而且还可以确定其结晶途径，并且可以作为形成各种分子筛的基质。具有不同形态的不同II-VI半导体和杂化纳米复合材料。这些II-VI半导体纳米结构及其杂化纳米复合材料显示出明显的量子尺寸效应，独特且可调谐的光学特性。

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来源
《Advanced Functional Materials》 |2008年第21期|p.3357-3366|共10页
作者
Wei-Tang Yao; Shu-Hong Yu;
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作者单位

Division of Nanomaterials & Chemistry Hefei National Laboratory for Physical Sciences at Microscale University of Science and Technology of China Hefei 230026 (P. R. China);

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正文语种 eng
中图分类无线电电子学、电信技术;
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1. Inorganic-organic hybrid semiconductor nanomaterials: (ZnSe)(N_2H_4)_x(C_5H_5N)_y [J] . Lina Liu, Hongwei Song, Libo Fan, Materials Research Bulletin . 2009,第6期

机译：无机-有机杂化半导体纳米材料：（ZnSe）（N_2H_4）_x（C_5H_5N）_y
2. Towards dilute magnetic semiconductors: Fe and Co substituted inorganic-organic hybrid materials based on ZnSe [J] . Huang XY, Heulings HR, Li J, Journal of nanoscience and nanotechnology . 2005,第9期

机译：迈向稀磁半导体：基于ZnSe的Fe和Co取代的无机-有机杂化材料
3. AX centers in II-VI semiconductors: Hybrid functional calculations [J] . Koushik Biswas, Mao-Hua Du Applied Physics Letters . 2011,第18期

机译：II-VI半导体中的AX中心：混合功能计算
4. Material synthesis and infrared optical properties of transition metal doped binary and ternary II-VI semiconductors [C] . U. Hommerich, Ei Ei Nyein, S. B. Trivedi, Symposium EE on Progress in Semiconductor Materials . 2005

机译：过渡金属掺杂二元和三元II-VI半导体的材料合成和红外光学性能
5. Developing Functional Inorganic-Organic Hybrid Materials Based on I-VII Semiconductors For Energy-Related Applications [D] . Liu, Wei. 2017

机译：开发基于I-VII半导体的功能性无机-有机杂化材料，用于能源相关应用
6. Editorial: Functionalized Inorganic Semiconductor Nanomaterials: Characterization Properties and Applications [O] . Kezhen Qi, Rengaraj Selvaraj, Liwei Wang 2020

机译：编辑：官能化无机半导体纳米材料：表征性质和应用
7. SYNTHESIS, CHARACTERIZATION AND STRUCTURE-PROPERTY INVESTIGATION OF FUNCTIONAL INORGANIC-ORGANIC HYBRID NANOMATERIALS [O] . PRADIPTA SANKAR MAITI 2011

机译：功能性无机-有机杂化纳米材料的合成，表征及结构性能研究

Synthesis of Semiconducting Functional Materials in Solution: From II-VI Semiconductor to Inorganic-Organic Hybrid Semiconductor Nanomaterials

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