摘要
The biomass D01 was screened from the soil of mining area and it was identified as Bacillus megatherium. It is able to adsorb and reduce the noble metal ions such as Pd2+,Au3+ and Ag+ etc. at room temperature. At pH 3. 5, the adsorbed ratio were 93. 2%,99. 5% and 98. 1%, respectively within 2 h. In situ TEM images showed that the Au, Ag particles adsorbed on the cell wall grew up gradually. Some of the Au particles formed polyhedron particles, while some ones broke off from the cell. The particle size can be controlled to be several nano-meters to more than a hundred nano-meters. XPS and XRD results indicated that Au3+, Ag+ and Pd2+ could be reduce to metals much faster than Rh3+ and Pt4+ by Dol. Peaks at 3 087 and 1 664 cm-1 in the IR spectra of D01 reduced gradually while interacting with metal ions, implying that metal ions were coordinated and reduced on the site of acylamide of D01. This is a promising method for preparation of metal catalysts with high dispersion and nano-meter sized metal particles.
The biomass D01 was screened from the soil of mining area and it was identified as Bacillus megatherium. It is able to adsorb and reduce the noble metal ions such as Pd2+,Au3+ and Ag+ etc. at room temperature. At pH 3. 5, the adsorbed ratio were 93. 2%,99. 5% and 98. 1%, respectively within 2 h. In situ TEM images showed that the Au, Ag particles adsorbed on the cell wall grew up gradually. Some of the Au particles formed polyhedron particles, while some ones broke off from the cell. The particle size can be controlled to be several nano-meters to more than a hundred nano-meters. XPS and XRD results indicated that Au3+, Ag+ and Pd2+ could be reduce to metals much faster than Rh3+ and Pt4+ by Dol. Peaks at 3 087 and 1 664 cm-1 in the IR spectra of D01 reduced gradually while interacting with metal ions, implying that metal ions were coordinated and reduced on the site of acylamide of D01. This is a promising method for preparation of metal catalysts with high dispersion and nano-meter sized metal particles.
出处
《高等学校化学学报》
SCIE
EI
CAS
CSCD
北大核心
1999年第9期1452-1454,共3页
Chemical Journal of Chinese Universities
基金
国家自然科学基金!29876026
2974301
固体表面物理化学国家重点实验室资助
