Merck
CN
  • An aminolytic approach toward hierarchical β-Ni(OH)(2) nanoporous architectures: a bimodal forum for photocatalytic and surface-enhanced raman scattering activity.

An aminolytic approach toward hierarchical β-Ni(OH)(2) nanoporous architectures: a bimodal forum for photocatalytic and surface-enhanced raman scattering activity.

Inorganic chemistry (2010-09-10)
Sougata Sarkar, Mukul Pradhan, Arun Kumar Sinha, Mrinmoyee Basu, Yuichi Negishi, Tarasankar Pal
摘要

A surfactantless, trouble-free, and gentle wet chemistry approach has been used to interpret the precisely controlled growth of β-Ni(OH)(2) with the assistance of ammonia and nickel acetate from seedless mild hydrothermal conditions. A thorough investigation of the reaction kinetics and product morphology with varied concentration of NH(3) and different reaction times suggests that a putative mechanism of dissolution, recrystallization, and oriented attachment supports the intelligent self-assembly of nanobuilding blocks. Associated characterizations (FTIR, PXRD, FESEM, EDAX, HRTEM, and Raman) have identified it to be pure β-Ni(OH)(2) without any signature of contamination. The assembled units result in porous frameworks (nanoflowers and nanocolumns) and are indeed full of communally intersecting nanopetals/nanoplates with both lengths and widths on the order of micrometer to nanometer length scale. The as-synthesized material could also be used as a precursor for nanometric black NiO under calcination. The hydroxide has been found to be a potent and environmentally benign material because it warrants its photocatalytic activity through dye mineralization. Finally, Ni(OH)(2) has been photochemically derivatized with dosages of silver nanoparticles bringing a competent composite authority Ag@Ni(OH)(2), to give a full-proof enhanced field effect of prolific SERS activity. In a nutshell, these results are encouraging and fetch new promise for the fabrication of a low-cost and high-yielding greener synthetic protocol for a functional material with promising practicability.

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Sigma-Aldrich
氢氧化镍(II)