Journal of Physical Chemistry & Biophysics
Open Access

Rajab ES, Abrahem AS, Mohamed AA, Ahmed HS. Magnetic bacteria and their potential applications: a review article. Вестник Мордовского университета. 2017;27(1).

Rismani Yazdi S. Using Microfluidics to Study Magnetotactic Bacteria (Doctoral dissertation).

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.

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.

Prabhau NN, Kowshik M. Magnetosomes: the bionanomagnets and its potential use in biomedical applications. J Nanomed Res. 2016;3(3):00057.

Chen S. Prediction of Bone Cell Probability Distribution in Weak Electromagnetic Fields.

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.

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.

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.

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.

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.

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.

Tsenova M, Kunovska B. Kremena Ivanova, Zdenka Stojanovska.

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.

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.

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.

Stojanovska ZA, Ivanova K, Bossew P, Boev B, Žunić 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.

Petroci T. Utjecaj elektromagnetskog onečišÄ‡enja na zdravlje (Doctoral dissertation, University of Zagreb. School of Medicine. Chair of Environmental and Occupational Health.).

Воробьева ОВ, Филенко ОФ, Исакова ЕФ, Юсупов ВИ, Зотов КВ, Баграташвили ВН. ВЛИЯНИЕ НИЗКОИНТЕНСИВНОГО ЭЛЕКТРОМАГНИТНОГО ИЗЛУЧЕНИЯ НА РАКООБРАЗНЫХ (НА ПРИМЕРЕ DAPHNIA MAGNA STRAUS). Биофизика. 2016;61(6):1202-1207.