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Literature DB >> 21284396

Oriented attachment growth of quantum-sized CdS nanorods by direct thermolysis of single-source precursor.

Zhiguo Li¹, Jiehe Sui, Xiaoli Li, Wei Cai.

Abstract

Quantum-sized CdS nanorods were synthesized by direct thermal decomposition of a single-source precursor in a monosurfactant system. The CdS nanorods were uniform, had high crystallinity, and exhibited strong quantum confinement effect. The nanorod growth was controlled by an oriented attachment mechanism, and the morphology was determined by the competition between dipole attraction and steric repulsion of nanodots. Increasing precursor concentration and prolonging reaction time were favorable for the formation of CdS nanorods.

Entities: Chemical

Year: 2011 PMID： 21284396 DOI： 10.1021/la1043552

Source DB: PubMed Journal: Langmuir ISSN： 0743-7463 Impact factor: 3.882

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Cited

3 in total

1. Complex Three-Dimensional Co₃O₄ Nano-Raspberry: Highly Stable and Active Low-temperature CO Oxidation Catalyst.

Authors: Teruaki Fuchigami; Ryosuke Kimata; Masaaki Haneda; Ken-Ichi Kakimoto
Journal: Nanomaterials (Basel) Date: 2018-08-26 Impact factor: 5.076

2. Connecting energetics to dynamics in particle growth by oriented attachment using real-time observations.

Authors: Lili Liu; Elias Nakouzi; Maria L Sushko; Gregory K Schenter; Christopher J Mundy; Jaehun Chun; James J De Yoreo
Journal: Nat Commun Date: 2020-02-25 Impact factor: 14.919

3. Bio-assisted preparation of efficiently architectured nanostructures of γ-Fe₂O₃ as a molecular recognition platform for simultaneous detection of biomarkers.

Authors: Sasikala Sundar; V Ganesh
Journal: Sci Rep Date: 2020-09-15 Impact factor: 4.379

3 in total

Oriented attachment growth of quantum-sized CdS nanorods by direct thermolysis of single-source precursor.

1. Complex Three-Dimensional Co₃O₄ Nano-Raspberry: Highly Stable and Active Low-temperature CO Oxidation Catalyst.

2. Connecting energetics to dynamics in particle growth by oriented attachment using real-time observations.

3. Bio-assisted preparation of efficiently architectured nanostructures of γ-Fe2O3 as a molecular recognition platform for simultaneous detection of biomarkers.

3. Bio-assisted preparation of efficiently architectured nanostructures of γ-Fe₂O₃ as a molecular recognition platform for simultaneous detection of biomarkers.