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Morphogenesis of anisotropic nanoparticles : self-templating via non-classical, fibrillar Cd<sub>2</sub>Se intermediates

Morphogenesis of anisotropic nanoparticles : self-templating via non-classical, fibrillar Cd2Se intermediates

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WURMBRAND, Daniel, Jörg Wolfram Anselm FISCHER, Rose ROSENBERG, Klaus BOLDT, 2018. Morphogenesis of anisotropic nanoparticles : self-templating via non-classical, fibrillar Cd2Se intermediates. In: Chemical Communications : ChemComm. 54(53), pp. 7358-7361. ISSN 1359-7345. eISSN 1364-548X. Available under: doi: 10.1039/c8cc02058b

@article{Wurmbrand2018-06-28Morph-42866, title={Morphogenesis of anisotropic nanoparticles : self-templating via non-classical, fibrillar Cd2Se intermediates}, year={2018}, doi={10.1039/c8cc02058b}, number={53}, volume={54}, issn={1359-7345}, journal={Chemical Communications : ChemComm}, pages={7358--7361}, author={Wurmbrand, Daniel and Fischer, Jörg Wolfram Anselm and Rosenberg, Rose and Boldt, Klaus} }

Fischer, Jörg Wolfram Anselm eng Fischer, Jörg Wolfram Anselm A fibrillar, polymeric intermediate (Cd<sub>2</sub>Se)<sub>n</sub> was isolated from the synthesis of CdSe nanorods, which suggests that the reactants themselves can template anisotropic growth. It is shown that high monomer concentration is the principal factor favouring this reaction pathway. The intermediate is distinct from crystalline semiconductor or small clusters and is surprisingly temperature-stable below 250 °C. 2018-07-16T10:02:40Z Wurmbrand, Daniel Morphogenesis of anisotropic nanoparticles : self-templating via non-classical, fibrillar Cd<sub>2</sub>Se intermediates Boldt, Klaus Boldt, Klaus 2018-06-28 Rosenberg, Rose Wurmbrand, Daniel Rosenberg, Rose 2018-07-16T10:02:40Z

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