Xinquan Xin scite author profile

Solution‐phase synthesis of single‐crystal ZnO disks and rings was achieved in high yield at low temperature (70–90 °C) by using an anionic surfactant as a template. The reaction can be controlled by means of the growth temperature and the molar ratio of reagents to favor formation of disks or rings. A growth mechanism is proposed on the basis of structural information provided by SEM and TEM.

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Single‐Crystal Hexagonal Disks and Rings of ZnO: Low‐Temperature, Large‐Scale Synthesis and Growth Mechanism

Ding

et al. 2004

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Die Flüssigphasensynthese von einkristallinen ZnO‐Scheiben und ‐Ringen (siehe Bild) in hohen Ausbeuten gelingt mit anionischen Tensiden als Templaten bei nur 70–90 °C. Über die Wachstumstemperatur und das molare Verhältnis der Reagentien lässt sich die Reaktion so steuern, dass Scheiben oder Ringe bevorzugt erhalten werden. Auf der Grundlage von Strukturinformationen aus SEM und TEM wird ein Wachstumsmechanismus vorgeschlagen.

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Self‐Assembly of Interpenetrating Coordination Nets Formed from Interpenetrating Cationic and Anionic Three‐Dimensional Diamondoid Cluster Coordination Polymers

et al. 2004

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An iron(iii) phosphonate cluster containing a nonanuclear ring

Yao

Wang

et al. 2006

Chem. Commun.

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Synthesis, crystal structure and non-linear optical properties of [NEt4]4[Cu6Mo2S6O2Br2I4]

Hou¹,

Xin²,

Liu³

et al. 1994

J. Chem. Soc., Dalton Trans.

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Xinquan Xin

Single‐Crystal Hexagonal Disks and Rings of ZnO: Low‐Temperature, Large‐Scale Synthesis and Growth Mechanism

Single‐Crystal Hexagonal Disks and Rings of ZnO: Low‐Temperature, Large‐Scale Synthesis and Growth Mechanism

Self‐Assembly of Interpenetrating Coordination Nets Formed from Interpenetrating Cationic and Anionic Three‐Dimensional Diamondoid Cluster Coordination Polymers

An iron(iii) phosphonate cluster containing a nonanuclear ring

Synthesis, crystal structure and non-linear optical properties of [NEt4]4[Cu6Mo2S6O2Br2I4]

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