Add to ORKGMembers of the genus Clostridia can reduce Pd(II) ions to form metallic Pd nanoparticles (bio-Pd). Cultures of C. pasteurianum BC1 were used to generate bio-Pd, which is primarily formed on the microbial cell wall. Batch experiments using C. pasteurianum BC1 cells loaded with bio-Pd showed efficient reduction of the organic azo dyes, methyl orange and Evans blue, while little reduction of dyes was observed in control experiments using Pd-containing heat-killed microbial cultures or Pd-free viable bacterial cultures. Degradation of azo dyes was found to occur via reductive hydrogenation of the azo-linkage. Molecular hydrogen, which is concomitantly generated by C. pasteurianum, is used in the reduction reaction. The process described in this...
The catalytic properties of various metal nanoparticles have led to their use in environmental remed...
Biogenic palladium nanoparticles (bio-Pd NPs) are used for the reductive transformation and/or dehal...
AbstractFive gram negative and two gram positive bacterial strains known for their heavy metal toler...
<p>The catalytic properties of various metal nanoparticles have led to their use in environmen...
Dye wastewater severely threatens the environment due to its hazardous and toxic effects. Although m...
New biological inspired methods were recently developed to recover precious metals from waste stream...
Aerobically grown E. coli cells reduced Pd(II) via a novel mechanism using formate as the electron d...
Production of catalytic palladium (Pd) nanoparticles using dissimilatory metal-reducing bacteria suc...
Bio-manufacturing of nano-scale palladium was achieved via enzymatically-mediated deposition of Pd f...
Aerobically grown E. coli cells reduced Pd(II) via a novel mechanism using formate as the electron d...
Purpose of work Hydrodehalogenation of persistent pollutants, such as the groundwater contaminants t...
The interaction between Shewanella oneidensis MR-1 and the soluble metal Pd(II) during the reductive...
Microbial reduction of soluble Pd(II) by cells of Shewanella oneidensis MR-1 and of an autoaggregati...
ABSTRACT: Sustainable methods are needed to recycle precious metals and synthesize catalytic nanopar...
The increasing demand and limited natural resources for industrially important platinum-group metal ...
The catalytic properties of various metal nanoparticles have led to their use in environmental remed...
Biogenic palladium nanoparticles (bio-Pd NPs) are used for the reductive transformation and/or dehal...
AbstractFive gram negative and two gram positive bacterial strains known for their heavy metal toler...
<p>The catalytic properties of various metal nanoparticles have led to their use in environmen...
Dye wastewater severely threatens the environment due to its hazardous and toxic effects. Although m...
New biological inspired methods were recently developed to recover precious metals from waste stream...
Aerobically grown E. coli cells reduced Pd(II) via a novel mechanism using formate as the electron d...
Production of catalytic palladium (Pd) nanoparticles using dissimilatory metal-reducing bacteria suc...
Bio-manufacturing of nano-scale palladium was achieved via enzymatically-mediated deposition of Pd f...
Aerobically grown E. coli cells reduced Pd(II) via a novel mechanism using formate as the electron d...
Purpose of work Hydrodehalogenation of persistent pollutants, such as the groundwater contaminants t...
The interaction between Shewanella oneidensis MR-1 and the soluble metal Pd(II) during the reductive...
Microbial reduction of soluble Pd(II) by cells of Shewanella oneidensis MR-1 and of an autoaggregati...
ABSTRACT: Sustainable methods are needed to recycle precious metals and synthesize catalytic nanopar...
The increasing demand and limited natural resources for industrially important platinum-group metal ...
The catalytic properties of various metal nanoparticles have led to their use in environmental remed...
Biogenic palladium nanoparticles (bio-Pd NPs) are used for the reductive transformation and/or dehal...
AbstractFive gram negative and two gram positive bacterial strains known for their heavy metal toler...