연구동향 분석

Optimization of As Bioleaching by Herbaspirillum sp. GW103 Coupled with Coconut Oil Cake

Govarthanan, Muthusamy Praburaman, Loganathan Kim, Jin-Won Oh, Sae-Gang Kamala-Kannan, Seralathan Oh, Byung-Taek 2015년

논문상세정보
인용/피인용
' Optimization of As Bioleaching by Herbaspirillum sp. GW103 Coupled with Coconut Oil Cake' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • arsenic
  • bioleaching
  • box-behnkendesign
  • heavymetalsfraction
  • herbaspirillumsp
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
126 0

0.0%

' Optimization of As Bioleaching by Herbaspirillum sp. GW103 Coupled with Coconut Oil Cake' 의 참고문헌

  • ptimal production of sulphuric acid by Thiobacillus thiooxidans using response surface methodology
    Liu, H.-L. Proc. Biochem 39 (12) : 1953 ~ 1961 [2004]
  • Statistical optimization of alkaline protease production from brackish environment Bacillus sp. SKK11 by SSF using horse gram husk
    Govarthanan, M. Prep. Biochem. Biotechnol 44 (2) : 119 ~ 131 [2014]
  • Simultaneous recovery of Ni and Cu from computer-printed circuit boards using bioleaching: Statistical evaluation and optimization
    Arshadi, M. Bioresour. Technol 174 : 233 ~ 242 [2014]
  • Significance of autochthonous Bacillus sp. KK1 on biomineralization of lead in mine tailings
    Govarthanan, M. Chemosphere 90 (8) : 2267 ~ 2272 [2013]
  • Response surface methodology based optimization of keratinase production from alkali-treated feather waste and horn waste using Bacillus sp. MG-MASC-BT
    Muthusamy Govarthanan Journal of Industrial and Engineering Chemistry 27 : 25 ~ 30 [2015]
  • Process optimization of cellulase production from alkalitreated coffee pulp and pineapple waste using Acinetobacter sp. TSK-MASC
    Selvam, K. Roy. Soc. Chem. Adv 4 (25) : 13045 ~ 13051 [2014]
  • Optimization of process parameters and dissolution kinetics of nickel and cobalt from lateritic chromite overburden using organic acids
    Biswas, S. J. Chem. Technol. Biotechnol 89 (10) : 1491 ~ 1500 [2014]
  • Optimization of operating parameters for the metal bioleaching process of contaminated soil
    Chen, S.-Y. Sep. Purif. Technol 71 (2) : 178 ~ 185 [2010]
  • Optimisation on bioleaching of incinerator fly ash by Aspergillus niger-use of central composite design
    Xu, T.-J. Enzyme Microb. Technol 35 (5) : 444 ~ 454 [2004]
  • Microbial leaching in environmental cleanup programmes
    Bosecker, K. Hydrometallurgy 59 (2) : 245 ~ 248 [2001]
  • Heavy Metals
    Rulkens, W.H. Springer-Verlag : 151 ~ 191 [1995]
  • Genome sequence of Herbaspirillum sp. strain GW103, a plant growth-promoting bacterium
    Lee, G.W. J. Bacteriol 194 (15) : 4150 ~ 4150 [2012]
  • Factorial design for the optimization of enzymatic detection of cadmium in aqueous solution using immobilized urease from vegetable waste
    Prakash, O. Bioresour. Technol 99 (16) : 7565 ~ 7572 [2008]
  • Effects of bioleaching on the chemical, mineralogical and morphological properties of natural and wastederived alkaline materials
    Chiang, Y.W. Miner. Eng 48 : 116 ~ 125 [2013]
  • Effect of substrate concentration on bioleaching of metal-contaminated sediment
    Chen, S.-Y. J. Hazard. Mater 82 (1) : 77 ~ 89 [2001]
  • Characterization, real-time quantification and in silico modeling of arsenate reductase (arsC) genes in arsenic-resistant Herbaspirillum sp. GW103
    Govarthanan, M. Res. Microbiol [2015]
  • Cause and Effects of Heavy Metal Pollution
    Yang, J.E. Nova Science Publishers [2008]
  • Bioremediation of metal contamination
    Mulligan, C.N. Environ. Monit. Assess 84 (1-2) : 45 ~ 60 [2003]
  • Biomineralization based remediation of As (III) contaminated soil by Sporosarcina ginsengisoli
    Achal, V. J. Hazard. Mater 201 : 178 ~ 184 [2012]
  • Bioleaching of spent hydro-processing catalyst using acidophilic bacteria and its kinetics aspect
    Mishra, D. J. Hazard. Mater 152 (3) : 1082 ~ 1091 [2008]
  • Bioleaching of spent fluid catalytic cracking catalyst using Aspergillus niger
    Aung, K.M.M. J. Biotechnol 116 (2) : 159 ~ 170 [2005]
  • Bioleaching of heavy metals from spent household batteries using Acidithiobacillus ferrooxidans: Statistical evaluation and optimization
    Bajestani, M.I. Sep. Purif. Technol 132 : 309 ~ 316 [2014]
  • Bioleaching of heavy metals from a contaminated soil using indigenous Penicillium chrysogenum strain F1
    Deng, X. J. Hazard. Mater 233 : 25 ~ 32 [2012]
  • Bioleaching of arsenic from highly contaminated mine tailings using Acidithiobacillus thiooxidans
    Lee, E. J. Environ. Manage 147 : 124 ~ 131 [2015]
  • Bioleaching characteristics, influencing factors of Cu solubilization and survival of Herbaspirillum sp. GW103 in Cu contaminated mine soil
    Govarthanan, M. Chemosphere 109 : 42 ~ 48 [2014]