Mishra_2022_Phosphine.pdf (1.4 MB)
Phosphine free synthesis of copper telluride nanocrystals in 1D and 2D shapes using dipehylditelluride (DPDTe) as an air-stable source
journal contribution
posted on 2023-04-28, 13:26 authored by Mohini MishraMohini Mishra, Niraj PatilNiraj Patil, Maria ZubairMaria Zubair, Nilotpal KapuriaNilotpal Kapuria, VASILY LEBEDEVVASILY LEBEDEV, Esther AdegokeEsther Adegoke, Kevin M. RyanKevin M. Ryan, SHALINI SINGHSHALINI SINGHIn this paper, we have developed a 'phosphine-free' method for synthesising copper telluride nanocrystals using diphenyl ditelluride as an air-stable tellurium source. The diphenyl ditelluride is shown to have optimal reactivity for the colloidal synthesis of Cu2Te, allowing optimal control over the phase and morphology. Using this unexplored Te precursor for copper telluride synthesis, 1D nanorods of hexagonal phase (Cu2Te) were synthesised at a moderate temperature of 180 °C. The precise control over key parameters for this system results in Cu2−xTe nanocrystals forming with varied shapes (1D nanorods and 2D nanoplates), sizes, and crystal phases (hexagonal Cu2Te and orthorhombic Cu1.43Te).
Funding
Multinary Compound Si, Ge and Sn Derived Nanocrystals: Composition, Shape and Heterostructure Control via Solution Methods (NanoIVCrystals)
Science Foundation Ireland
Find out more...History
Publication
Nantotechnology, 33, 20Publisher
IOP PublishingOther Funding information
The authors acknowledge financial support from the Department of Chemical Sciences, University of Limerick, Science Foundation Ireland (SFI), Grant Number 16/IA/4629, Irish Research Council (IRC) under Grant Number IRCLA/2017/285. KR further acknowledges SFI Research Centres MaREI, AMBER, and CONFIRM 12/RC/2278_P2, 12/RC/2302_P2, and 16/RC/3918.Also affiliated with
- Bernal Institute
External identifier
Department or School
- Chemical Sciences
