Indexed In
- Open J Gate
- Genamics JournalSeek
- JournalTOCs
- China National Knowledge Infrastructure (CNKI)
- Electronic Journals Library
- RefSeek
- Hamdard University
- EBSCO A-Z
- OCLC- WorldCat
- SWB online catalog
- Virtual Library of Biology (vifabio)
- Publons
- MIAR
- Euro Pub
- Google Scholar
Useful Links
Share This Page
Journal Flyer
Open Access Journals
- Agri and Aquaculture
- Biochemistry
- Bioinformatics & Systems Biology
- Business & Management
- Chemistry
- Clinical Sciences
- Engineering
- Food & Nutrition
- General Science
- Genetics & Molecular Biology
- Immunology & Microbiology
- Medical Sciences
- Neuroscience & Psychology
- Nursing & Health Care
- Pharmaceutical Sciences
Articles published in Journal of Petroleum & Environmental Biotechnology have been cited by esteemed scholars and scientists all around the world. Journal of Petroleum & Environmental Biotechnology has got h-index 39, which means every article in Journal of Petroleum & Environmental Biotechnology has got 39 average citations.
Following are the list of articles that have cited the articles published in Journal of Petroleum & Environmental Biotechnology.
| 2024 | 2023 | 2022 | 2021 | 2020 | 2019 | 2018 | 2017 | 2016 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Total published articles |
40 | 56 | 60 | 53 | 18 | 16 | 31 | 38 | 61 | 57 | 35 | 43 | 34 | 12 | 4 |
Research, Review articles and Editorials |
3 | 15 | 10 | 13 | 8 | 11 | 1 | 35 | 53 | 53 | 30 | 33 | 21 | 8 | 4 |
Research communications, Review communications, Editorial communications, Case reports and Commentary |
20 | 41 | 50 | 40 | 10 | 5 | 30 | 3 | 8 | 4 | 5 | 10 | 13 | 4 | 0 |
Conference proceedings |
23 | 8 | 5 | 14 | 5 | 0 | 100 | 168 | 168 | 118 | 175 | 188 | 89 | 0 | 0 |
Citations received as per Google Scholar, other indexing platforms and portals |
488 | 589 | 699 | 790 | 653 | 601 | 563 | 460 | 389 | 349 | 171 | 70 | 20 | 36 | 0 |
| Journal total citations count | 5903 |
| Journal impact factor | 1.72 |
| Journal 5 years impact factor | 2.78 |
| Journal cite score | 20.15 |
| Journal h-index | 39 |
Important citations
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.
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.
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.
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).
Aditi B, Madhuri S (2014) Chromate detoxification using a soil microbial mixed culture growing on tannin. Journal of Environmental Research and Development 9: 138.
Ahluwalia SS (2014) Microbial removal of hexavalent chromium and scale up potential. Int. J. Curr. Microbiol. App. Sci. 3: 383-98.
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.
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.
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.
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.
Wang H, Ren ZJ (2014) Bioelectrochemical metal recovery from wastewater: a review. Water research. 66: 219-32.
Saha P, Rao KB (2017) Biosurfactants-A Current Perspective on Production and Applications. Nature Environment and Pollution Technology. 16: 181.
Satish D, Goa KB (2015) Research and Reviews: Journal of Engineering and Technology.
Kaskatepe B, Yildiz S (2016) Rhamnolipid Biosurfactants Produced by Pseudomonas Species. Brazilian Archives of Biology and Technology. 59.
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.
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.
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.
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.
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.
Sarafin Y, Donio MB, Velmurugan S, Michaelbabu M, Citarasu T (2014) Kocuria marina BS-15 a biosurfactant producing halophilic bacteria isolated from solar salt works in India. Saudi journal of biological sciences 21: 511-9.