期刊论文详细信息
JOURNAL OF CHEMICAL ENGINEERING OF JAPAN
Preparation of Cadmium Sulfide Ultrafine Particles Surface-Modified with Thiols in Reverse Micellar Systems and Redispersion in Non-Micellar Solvents
Susumu Shiojiri1  Isao Komasawa1  Takayuki Hirai1 
[1] Department of Chemical Engineering, Osaka University
关键词: Reverse Micelle;    Ultrafine Particle;    Cadmium Sulfide;    Surface Modification;    Thiophenol;   
DOI  :  10.1252/jcej.30.86
来源: Maruzen Company Ltd
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【 摘 要 】

References(22)Cited-By(23)Surface modification with thiols and redispersion into non-micellar solvents of CdS ultrafine particles prepared in situ in reverse micellar systems have been investigated. An excellent redispersion in pyridine is observed when the CdS ultrafine particles are prepared with 0.4 y (=[S2–]/[Cd2+]) 2+ ions adsorbed to the surface of the CdS particles. The particle redispersion ratio, R, is defined as the ratio of absorbance of ultrafine particles redispersed in nonmicellar media to that of particles in the same amount of the original reverse micellar solution. As the time after CdS formation until the addition of thiophenol to the micellar solution (tSH) increases, the redispersion ratio R into either pyridine or CH2O2 decreases. The emission at λem=570 nm of the formed CdS particles in reverse micellar solutions before adding thiophenol, which has been attributed to surface sulfur vacancies of CdS, also decreases rapidly after the particle formation. This observation suggests that the surface sulfur vacancies of CdS play an important role in the surface modification by thiols. In the redispersion process of CdS ultrafine particles, the added thiophenol molecules are considered to have two functions: destabilizing the reverse micelles and binding to the surface of the particles ejected from the micelles owing to destabilization. Solvent molecules with both ligand parts and hydrophobic groups are favorable for redispersing the particles covered with thiophenol.

【 授权许可】

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