D. W. Wang scite author profile

Zinc powder reacts with equivalent elemental selenium in solvent ethylenediamine at 120 °C for 6 h to form a complex, which is converted to ZnSe nanoparticles by pyrolysis or protonization. X-ray diffraction results suggest that the as-formed products have wurtzite structure. Transmission electron microscopy observation show that particles with spherical and laminar morphology were produced by pyrolysis and protonization, respectively. The formation of ZnSe nanoparticles is also investigated by infrared and thermal analysis.

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Hydrazine-controlled hydrothermal synthesis of Co₉S₈ from a homogeneous solution

Zhan

Yang

Wang

et al. 1999

J. Mater. Res.

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Single-phase nanocrystalline Co9S8 was prepared by hydrothermal treatment of Co(Ac)2 and NH2CSNH2 in hydrazine solution at 170 °C. The products were characterized by x-ray powder diffraction (XRD) technique, transmission electron microscope (TEM), and wet chemical analysis. XRD indicated the product was the cubic Co9S8 phase. The relative crystallite size was 6.3 nm as determined by the Scherrer method. TEM images showed the particles were agglomerative. The electron diffraction pattern also revealed their nanocrystalline nature. In this hydrothermal formation process of Co9S8, hydrazine was a critical factor. The formation process is discussed.

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D. W. Wang

Polymer-Controlled Growth of CdS Nanowires

A solvothermal route to wurtzite ZnSe nanoparticles

Hydrazine-controlled hydrothermal synthesis of Co₉S₈ from a homogeneous solution

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D. W. Wang

Polymer-Controlled Growth of CdS Nanowires

A solvothermal route to wurtzite ZnSe nanoparticles

Hydrazine-controlled hydrothermal synthesis of Co9S8 from a homogeneous solution

Contact Info

Product

Resources

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Hydrazine-controlled hydrothermal synthesis of Co₉S₈ from a homogeneous solution