Citations Report
Citations Report - Journal of Physical Chemistry & Biophysics [567 Articles]
The articles published in Journal of Physical Chemistry & Biophysics have been cited 567 times by eminent researchers all around the world. Following is the list of articles that have cited the articles published in Journal of Physical Chemistry & Biophysics.
Rajab ES, Abrahem AS, Mohamed AA, Ahmed HS. Magnetic bacteria and their potential applications: a review article. ÐеÑÑник ÐоÑдовÑкого ÑнивеÑÑиÑеÑа. 2017;27(1). |
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Pinto MM. Bactérias magnetotáticas e suas aplicações. |
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Rismani Yazdi S. Using Microfluidics to Study Magnetotactic Bacteria (Doctoral dissertation). |
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Fernández-Castané A, Li H, Thomas OR, Overton TW. Development of a simple intensified fermentation strategy for growth of Magnetospirillum gryphiswaldense MSR-1: Physiological responses to changing environmental conditions. New biotechnology. 2018;46:22-30. |
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Chikkanna A, Ghosh D. Microbial Mineral Dissolution and Environmental Disasters: Microbes and Their Mineral Interactions. InMicrobial Biotechnology in Environmental Monitoring and Cleanup 2018 (pp. 125-151). IGI Global. |
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Prabhau NN, Kowshik M. Magnetosomes: the bionanomagnets and its potential use in biomedical applications. J Nanomed Res. 2016;3(3):00057. |
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Chen S. Prediction of Bone Cell Probability Distribution in Weak Electromagnetic Fields. |
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Nava JJ, Ambrosio PE, Dominguez DS. Cytoprotective Effect of 120 Hz Electromagnetic Fields on Early Hepatocarcinogenesis: Experimental and Theoretical Findings. Vitamin E in Health and Disease. 2018:41. |
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Letuta UG, Avdeeva EI. Magnetic-dependent ATP pool in Escherichia coli. InDoklady Biochemistry and Biophysics 2017;(Vol. 474, No. 1, pp. 196-199). Pleiades Publishing. |
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Godina-Nava JJ, Torres-Vega G, López-Riquelme GO, López-Sandoval E, Samana AR, Velasco FG etal. Quantum mechanical model for the anticarcinogenic effect of extremely-low-frequency electromagnetic fields on early chemical hepatocarcinogenesis. Physical Review E. 2017;95(2):022416. |
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Portelli LA. Uncertainty sources associated with low-frequency electric and magnetic field experiments on cell cultures. InDosimetry in Bioelectromagnetics 2017 May 23 (pp. 31-67). CRC Press. |
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Beretta G, Mastorgio AF, Pedrali L, Saponaro S, Sezenna E. The effects of electric, magnetic and electromagnetic fields on microorganisms in the perspective of bioremediation. Rev Environ Sci Bio. 2019;18(1):29-75. |
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Nader AF. The determination of equilibrium factor of radon and thoron using LR-115 type II detector in a selected area from Basra Governorate, Iraq. InJournal of Physics: Conference Series 2019;1258(1):012032. IOP Publishing. |
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Tsenova M, Kunovska B. Kremena Ivanova, Zdenka Stojanovska. |
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Vukotic P, Antovic N, Zekic R, Svrkota N, Andjelic T, Svrkota R etal. MAIN FINDINGS FROM RADON INDOOR SURVEY IN MONTENEGRO. Radiat Prot Dosim. 2019. |
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Stojanovska Z, Boev B, Boev I. RESULTS OF INDOOR RADON MEASUREMENTS IN THE REPUBLIC OF MACEDONIA:–A REVIEW–. Contributions, Section of Natural, Mathematical and Biotechnical Sciences. 2017;38(2):137-145. |
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Ivanova K, Stojanovska Z, Tsenova M, Kunovska B. Building-specific factors affecting indoor radon concentration variations in different regions in Bulgaria. Air Qual Atmos Health. 2017;10(9):1151-1161. |
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Stojanovska ZA, Ivanova K, Bossew P, Boev B, ŽuniÄ ZS, Tsenova M etal. Prediction of long-term indoor radon concentration based on short-term measurements. Nuclear technology and radiation protection. 2017;32(1):77-84. |
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Petroci T. Utjecaj elektromagnetskog oneÄišÄenja na zdravlje (Doctoral dissertation, University of Zagreb. School of Medicine. Chair of Environmental and Occupational Health.). |
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ÐоÑобÑева ÐÐ, Филенко ÐФ, ÐÑакова ÐФ, ЮÑÑпов ÐÐ, ÐоÑов ÐÐ, ÐагÑаÑаÑвили ÐÐ. ÐÐÐЯÐÐÐ ÐÐÐÐÐÐÐТÐÐСÐÐÐÐÐÐ ÐÐÐÐТРÐÐÐÐÐÐТÐÐÐÐ ÐÐÐУЧÐÐÐЯ ÐÐ Ð ÐÐÐÐÐÐ ÐÐÐЫХ (ÐÐ ÐÐ ÐÐÐÐ Ð DAPHNIA MAGNA STRAUS). ÐиоÑизика. 2016;61(6):1202-1207. |
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