+44 7480022449Citations Report
Citations Report - Journal of Petroleum & Environmental Biotechnology [481 Articles]
The articles published in Journal of Petroleum & Environmental Biotechnology have been cited 481 times by eminent researchers all around the world. Following is the list of articles that have cited the articles published in Journal of Petroleum & Environmental Biotechnology.
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BHATERIA R, DHAKA R (2017) BIOLOGICAL STRATEGIES FOR DETOXIFICATION OF HEXAVALENT CHROMIUM. |
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SADDIQE Z, FAROOQ A, KHAN F, KHALID H, JAVERIA S (2015) Effect of Chromium (VI) on physical growth and biochemical parameters of Wheat (Triticum aestivum L.) seedlings. |
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El-Gendy MM, El-Bondkly AM (2016) Evaluation and enhancement of heavy metals bioremediation in aqueous solutions by Nocardiopsis sp. MORSY1948, and Nocardia sp. MORSY2014. brazilian journal of microbiology.47: 571-86. |
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Pandey S, Singh NK, Bansal AK, Arutchelvan V, Sarkar S (2016) Alleviation of toxic hexavalent chromium using indigenous aerobic bacteria isolated from contaminated tannery industry sites. Preparative Biochemistry and Biotechnology 46: 517-23. |
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Al-Battashi H, Joshi SJ, Pracejus B, Al-Ansari A (2016) The Geomicrobiology of Chromium (VI) Pollution: Microbial Diversity and its Bioremediation Potential. The Open Biotechnology Journal 10(1). |
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Aditi B, Madhuri S (2014) Chromate detoxification using a soil microbial mixed culture growing on tannin. Journal of Environmental Research and Development 9: 138. |
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Ahluwalia SS (2014) Microbial removal of hexavalent chromium and scale up potential. Int. J. Curr. Microbiol. App. Sci. 3: 383-98. |
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Sivakumar D (2016) Biosorption of hexavalent chromium in a tannery industry wastewater using fungi species. Global Journal of Environmental Science and Management. 2: 105-24. |
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Arévalo-Rangel DL, Cárdenas-González JF, Martínez-Juárez VM, Acosta-Rodríguez I (2013) Hexavalent Chromate Reductase Activity in Cell Free Extracts of Penicillium sp. Bioinorganic chemistry and applications. |
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Michailides MK, Tekerlekopoulou AG, Akratos CS, Coles S, Pavlou S, Vayenas DV (2015) Molasses as an efficient low-cost carbon source for biological Cr (VI) removal. Journal of hazardous materials. 281: 95-105. |
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Gang A, Vyas A, Vyas H (2013) Toxic effect of heavy metals on germination and seedling growth of wheat. Journal of Environmental Research and Development. 8: 206. |
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Wang H, Ren ZJ (2014) Bioelectrochemical metal recovery from wastewater: a review. Water research. 66: 219-32. |
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Saha P, Rao KB (2017) Biosurfactants-A Current Perspective on Production and Applications. Nature Environment and Pollution Technology. 16: 181. |
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Satish D, Goa KB (2015) Research and Reviews: Journal of Engineering and Technology. |
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Kaskatepe B, Yildiz S (2016) Rhamnolipid Biosurfactants Produced by Pseudomonas Species. Brazilian Archives of Biology and Technology. 59. |
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Kaskatepe B, Yildiz S, Gumustas M, A Ozkan S (2017) Rhamnolipid production by Pseudomonas putida IBS036 and Pseudomonas pachastrellae LOS20 with using pulps. Current Pharmaceutical Analysis. 13: 138-44. |
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El Mahdi AM, Aziz HA (2017) Hydrocarbon Biodegradation Using Agro-Industrial Wastes as Co-Substrates. InHandbook of Research on Inventive Bioremediation Techniques. IGI Global pp. 155-185. |
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ZHAO Fang-Long, ZHU Wu-Qing, YANG Xue, LU Wen-Yu (2013) Optimization of Fermentation Medium and LC-MS / MS Analysis of Pseudomonas aeruginosa O-2-2 Production of Rhamnolipid. Chinese Journal of Biotechnology 33: 000079-85. |
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Sharma D, Ansari MJ, Al-Ghamdi A, Adgaba N, Khan KA,et al. (2015) Biosurfactant production by Pseudomonas aeruginosa DSVP20 isolated from petroleum hydrocarbon-contaminated soil and its physicochemical characterization. Environmental Science and Pollution Research 22: 17636-43. |
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Mabrouk ME, Youssif EM, Sabry SA (2014) Biosurfactant production by a newly isolated soft coral-associated marine Bacillus sp. E34: statistical optimization and characterization. Life Sci J. |
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