-
2017,
Alizadeh H, Davoodi J, Rafii-Tabar H
J Mol Graph Model 73: 108-114
-
2016,
Setayandeh SS, Lohrasebi A
J Mol Graph Model 70: 122-128
-
2018,
Shokrollahi S, Ghanati F, Sajedi RH, Sharifi M
J Plant Physiol 226: 163-171
-
2017,
Kheifets L, Swanson J, Yuan Y, Kusters C, Vergara X
J Radiol Prot 37 (2): 459-491
-
2020,
Stege TAM, Bolte JFB, Claassen L, Timmermans DRM
J Risk Res 23 (12): 1650-1660
-
2024,
Cao Y, Hay S, de Visser SP
J Am Chem Soc [in press]
-
2020,
Zhao Y, Liang R, Yang Y, Lin S
J Theor Biol 492: 110195
-
2009,
Skomro P, Opalko K, Bohdziewicz O, Nocen I, Janiszewska-Olszowska J
Magnes Res 22 (2): 89-92
-
Magn Reson Imaging 33 (5): 681-689
-
2023,
Kirova T, Tamuliene J
Materials 16 (5): 1814
-
2006,
Akdag Z, Dasdag S, Aksen F, Isik B, Yilmaz F
Med Sci Monit 12 (11): BR366-BR371
-
2014,
Ciejka E, Kowalczyk A, Gorąca A
Med Pr Work Health Saf 65 (5): 639-644
-
2014,
Ciejka E, Jakubowska E, Zelechowska P, Huk-Kolega H, Kowalczyk A, Goraca A
Med Pr Work Health Saf 65 (3): 343-349
-
2009,
Fojt L, Klapetek P, Strasak L, Vetterl V
Micron 40 (8): 918-922
-
1990,
Rappaport ZH, Young W
Neurol Res 12 (2): 95-98
-
1999,
Morrissey JJ, Raney S, Heasley E, Rathinavelu P, Dauphinee M, Fallon JH
Neuroscience 92 (4): 1539-1546
-
2023,
Shi Y, Ouyang K, Ren W, Li W, Cao M, Xue Z, Shi M
Opt Express 31 (12): 18931-18938
-
2011,
Rebrov VG, Usanov DA, Usanov AD, Kotelevtsev SV, Orlov SN
Pathophysiology 18 (2): 121-123
-
2024,
Li MQ, Chen C, Ma YQ, Ding HM
Phys Chem Chem Phys 26 (18): 13751-13761
-
2020,
Chowdhury AS, Ali HS, Faponle AS, de Visser SP
Phys Chem Chem Phys 22 (46): 27178-27190
-
2018,
Lin X, Nair V, Zhou Y, Gorfe AA
Phys Chem Chem Phys 20 (23): 15841-15851
-
2016,
Kattnig DR, Solov'yov IA, Hore PJ
Phys Chem Chem Phys 18 (18): 12443-12456
-
Phys Rev E 97 (4): 042409
-
2005,
Savukov IM, Seltzer SJ, Romalis MV, Sauer KL
Phys Rev Lett 95 (6): 063004
-
2018,
Calabrò E, Magazù S
Phys Lett A 382 (47): 3405-3411
-
2010,
Ciejka E, Skibska B, Kleniewska P, Goraca A
Pol Merkur Lek 29 (174): 361-364
-
[[低磁界が脂質過酸化に与える影響]]
[foreign-language]
Pol Merkur Lek 24 (140): 106-108
-
2013,
Gultekin DH, Moeller L
Proc Natl Acad Sci USA 110 (1): 58-63
-
2012,
Leszczynski D, de Pomerai D, Koczan D, Stoll D, Franke H, Albar JP
Proteomics 12 (15-16): 2493-2509
-
2023,
Brzozek C, Karipidis K
Public Health Res Pract 33 (3): 3332325
-
2021,
Marques MD, Kerr JR, Williams MN, Ling M, McLennan J
Public Underst Sci 30 (7): 854-867
-
2023,
Henderson S, Bhatt C, Loughran S
Radiat Prot Dosimetry 199 (6): 519-526
-
2020,
Karastergios I, Gialofas A, Karabetsos E
Radiat Prot Dosimetry 188 (4): 413-423
-
2006,
Siegrist M, Keller C, Cousin ME
Risk Anal 26 (4): 1021-1029
-
2021,
Perera PGT, Todorova N, Vilagosh Z, Bazaka O, Nguyen THP, Bazaka K, Crawford RJ, Croft RJ, Yarovsky I, Ivanova EP
RSC Adv 11 (50): 31408-31420
-
2011,
Kravchuk T, Reznikov M, Tichonov P, Avidor N, Meir Y, Bekkerman A, Alexandrowicz G
Science 331 (6015): 319-321
-
2020,
Ivanov YD, Pleshakova TO, Shumov ID, Kozlov AF, Ivanova IA, Valueva AA, Tatur VY, Smelov MV, Ivanova ND, Ziborov VS
Sci Rep 10: 9022
-
2016,
Yang S, Liu P, Yang M, Wang Q, Song J, Dong L
Sci Rep 6: 21921-
-
2020,
Han SJ, Moon D, Park MY, Kwon S, Noh M, Jang J, Lee JB, Kim KS
Skin Res Technol 26 (6): 914-922
-
2012,
Raffa V, Riggio C, Smith MW, Jordan KC, Cao W, Cuschieri A
Technol Cancer Res Treat 11 (5): 459-465
-
Teratology 59 (4): 182-204
-
Environmentalist 32 (2): 144-156
-
2007,
Belova N, Ermakova O, Ermakov A, Rojdestvenskaya Z, Lednev V
Environmentalist 27 (4): 411-416
-
2005,
Voychuk SI, Gromozova EN, Lytvyn PM, Podgorsky VS
Environmentalist 25 (2-4): 139-144
-
2020,
Zdorevskyi OO, Perepelytsya SM
Eur Phys J E Soft Matter 43 (12): 77
-
2020,
Jiang XZ, Yang L, Ventikos Y, Luo KH
J Chem Phys 153 (10): 105102
-
2020,
Todorova N, Bentvelzen A, Yarovsky I
J Chem Phys 152 (3): 035104
-
2016,
Todorova N, Bentvelzen A, English NJ, Yarovsky I
J Chem Phys 144 (8): 085101
-
2006,
Tu XW, Lee JH, Ho W
J Chem Phys 124 (2): 21105
-
2018,
Fernández ML, Risk MR, Vernier PT
J Membr Biol 251 (2): 237-245