Aqueous synthesis of CdS and CdSe/CdS tetrapods for photocatalytic hydrogen generation

A. Vaneski; J. Schneider; A. S. Susha; A. L. Rogach

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Aqueous synthesis of CdS and CdSe/CdS tetrapods for photocatalytic hydrogen generation

机译：CdS和CdSe / CdS四足动物的水合成用于光催化制氢

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Straightforward, easily upscalable synthesis of monodisperse CdS and CdSe/CdS nanocrystals at room temperature in water/ethylendiamine mixtures is demonstrated, resulting in the formation of high-quality tetrapod-shaped nanoparticles in aqueous environment. It offers advantages for the subsequent direct use of aqueous-based colloidal nanocrystals for photocatalytic hydrogen generation from water, as it avoids any additional phase transfer necessary for any commonly employed nanoparticles synthesized in organic medium. Being decorated with platinum as a co-catalyst, CdSe/CdS tetrapods achieve hydrogen evolution rates of up to 25 mmol/g per hour, which favorably compares to previously reported studies on CdS nanorods.

机译：证明了在室温下在水/乙二胺混合物中可直接合成的单分散CdS和CdSe / CdS纳米晶体，可在水性环境中形成高质量的四脚形纳米颗粒。它为随后将水基胶体纳米晶体直接用于从水中光催化制氢提供了优势，因为它避免了有机介质中合成的任何常用纳米颗粒所必需的任何其他相转移。用铂作为助催化剂装饰，CdSe / CdS四脚架的氢气释放速率高达每小时25 mmol / g，这与以前报道的CdS纳米棒研究相比具有优势。

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《APL Materials》 |2014年第1期|共页
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A. Vaneski; J. Schneider; A. S. Susha; A. L. Rogach;
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机译：水溶性合成Cds和Cdse / Cds四足动物用于光催化制氢

Aqueous synthesis of CdS and CdSe/CdS tetrapods for photocatalytic hydrogen generation

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