Issue 20, 2013
From the journal:

Nanoscale

A totally phosphine-free synthesis of metal telluride nanocrystals by employing alkylamides to replace alkylphosphines for preparing highly reactive tellurium precursors

Dong Yao,a   Yi Liu,a   Wujun Zhao,a   Haotong Wei,a   Xintao Luo,a   Zhennan Wu,a   Chunwei Dong,a   Hao Zhang*a  and  Bai Yanga  

* Corresponding authors

a State Key Laboratory of Supramolecular Structure and Materials, Jilin University, Changchun 130012, P. R. China
E-mail: hao_zhang@jlu.edu.cn
Fax: +86 431 85193423
Tel: +86 431 85159205

Abstract

Despite the developments in the wet chemical synthesis of high-quality semiconductor nanocrystals (NCs) with diverse elemental compositions, telluride NCs are still irreplaceable materials owing to their excellent photovoltaic and thermoelectric performances. Herein we demonstrate the dissolution of elemental tellurium (Te) in a series of alkylamides by sodium borohydride (NaBH4) reduction at relatively low temperature to produce highly reactive precursors for hot-injection synthesis of telluride NCs. The capability to tune the reactivity of Te precursors by selecting injection temperature permits control of NC size over a broad range. The current preparation of Te precursors is simple, economical, and totally phosphine-free, which will promote the commercial synthesis and applications of telluride NCs.

Graphical abstract: A totally phosphine-free synthesis of metal telluride nanocrystals by employing alkylamides to replace alkylphosphines for preparing highly reactive tellurium precursors

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Article information

DOI
https://doi.org/10.1039/C3NR03553K
Article type
Communication
Submitted
11 Jul 2013
Accepted
13 Aug 2013
First published
06 Sep 2013

Nanoscale, 2013,5, 9593-9597

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A totally phosphine-free synthesis of metal telluride nanocrystals by employing alkylamides to replace alkylphosphines for preparing highly reactive tellurium precursors

D. Yao, Y. Liu, W. Zhao, H. Wei, X. Luo, Z. Wu, C. Dong, H. Zhang and B. Yang, Nanoscale, 2013, 5, 9593 DOI: 10.1039/C3NR03553K

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