Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları
Proje Grubu: MAG Sayfa Sayısı: 47 Proje No: 112M740 Proje Bitiş Tarihi: 01.11.2014 Metin Dili: Türkçe İndeks Tarihi: 29-07-2022
Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları
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Anahtar Kelime: Erişim Türü: Erişime Açık
- Akkuş, İ., 1995, Serbest Radikaller ve Fizyopatolojik Etkileri, Mimoza Yayınları, Konya.
- Atillasoy, P., Yük Boşalımı Tekniğiyle Hazırlanan Akıllı Jel Materyallerinin Karakterizasyonu, Yüksek Lisans Tezi, Hacettepe Üni. Gıda Müh.Beytepe,Ankara, 2006
- Boudam, M.K., Moisan, M., Saoudi, B., Popovici, C., Gherardi, N., Massines, F., Bacterial spores inactivation by atmospheric-pressure plasmas in the presence or absence of UV photons as obtained with the same gas mixture, Journal of Physics D: Applied Physics 39 (16), art. no. S07, pp. 3494-3507.
- Briandet R, Kamgang JO, Rutter Y, Herry JM, Bellon-Fontaine MN., 2003, ‘’Potential of a non thermal gliding arc plasma device for the control of Staphylococcus epidermidis contamination on solid surfaces’’, In proceedings of Biofilms in medicine, Elsinore, Danemark.
- Briandet, R., Kamgang, J.O., Rutter, Y., Herry, J.M., Bellon-Fontaine, M.N., 2003, Potential of a non thermal gliding arc plasma device for the control of Staphylococcus epidermidis contamination on solid surfaces, Biofilms in medicine, Elsinore, Danemark.
- Burlica, R., Grim, R.G., Shih, K.-Y. , Balkwill, D., Locke, B. R. , 2010, ‘’Bacteria Inactivation Using Low Power Pulsed Gliding Arc Discharges with Water Spray’’, Plasma Processes and Polymers, 7, 640–649.
- Carrillo, C., Teruel, J.A, Aranda, F.J., Ortiz A, 2003, ‘’Molecular mechanism of membrane permeabilization by the peptide antibiotic surfactin’’. Biochim Biophys Acta, 1611, 91-97
- Detomaso, L., Gristina, R., Senesi, G.S., Sutherland, D., Agheli, H., D'Agostinio, R., 2003, Plasma deposited acrylic acid coatings for biomedical devices: adapting the interface with flat and nano-structured substrates for improved water resistance and cell culture, International Symposium on Plasma Chemistry, Taormina, Italy, pp. 701.
- Du, C., Tang, J., Mo, J., Ma,D., Wang,J., Wang, K., Zeng, Y., 2014, ‘’Decontamination of Bacteria by Gas–Liquid Gliding Arc Discharge: Application to Escherichia coli’’, IEEE Transactıons on Plasma Science, 42, 2221-2228.
- Elmnasser,N.,Guillou, S., Leroi, F., Orange, N., Bakhrouf, A., Federighi, M. 2007. ‘’Pulsed-light systemas a novel food decontamination technology: a review’’. Can J Microbiol, 53, 813–821.
- Everaert, E.P.J.M., Van De Belt-Gritter, B., Van Der Mei, H.C., Busscher, H.J., Verkerke, G.J., Dijk, F., Mahieu, H.F., Reitsma, A., 1998, In vitro and in vivo microbial adhesion and growth on argon plasma-treated silicone rubber voice prostheses, Journal of Materials Science: Materials in Medicine 9 (3), pp. 147-157.
- Feuilloley MGJ, Bourdet G, Orange N. 2006. ‘’Effect of pulsed light on Pseudomonas aeruginosaculturability and its endotoxin when present in ampoules for injectables’’. Eur JParenteral Pharmacol Sci, 11, 37–43.
- Fraser, S.J., Gillette, R.B., Olsen, R.L., 1976, Sterilizing process and apparatus utilizing gas plasma, US Patent 3948601.
- Fridman, A., Chirokov, A., Gutsol, A., Non-thermal atmospheric pressure discharges,2005, Journal of Physics D: Applied Physics 38 (2), pp. R1-R24.
- Gadri, R. B., Reece Roth, J., Montie, T.C., Kelly-Wintenberg, K., Tsai, P.P.Y., Helfrich, D.J., 2000, Sterilization and plasma processing of room temperature surfaces with a one atmosphere uniform glow discharge plasma (OAUGDP), Surface and Coatings Technology 131, pp. 528–42.
- Gallagher, M.J., Gutsol, A., Friedman, G., Fridman, A., 2005, Non-thermal plasma applications in air sterilization, International Symposium on Plasma Chemistry, Toronto, Canada, pp. 1056–7.
- Gallagher, M.J., Gutsol, A., Friedman, G., Fridman, A., 2005, Non-thermal plasma applications in air sterilization, International Symposium on Plasma Chemistry, Toronto, Canada, pp. 1056–7.
- Gomathi, N., Sureshkumar, A., Neogi, S., 2008, RF plasma-treated polymers for biomedical Applications, Current Science 94 (11), pp. 1478-1486.
- Güven, B., Basaran-Akgul, N., Temur, E., Tamer, U. Boyaci I.H., 2011. ‘’SERS-based sandwich immunoassay using antibody coated magnetic particles for Escherichia coli enumeration’’,Analyst, 136,740-748.
- Henglein A.,1987. ‘’Sonochemistry: historical developments and modern aspects. UltrasonSonochem’’, 25, 6-17.
- Hnatiuc, E. In Procédés électriques de mesure et de traitement des polluants, Tec et Doc Editors, 2002. p.219–295.
- Koulik, P., Begounov, S., Goloviatinskii, S., 1999, Atmospheric plasma sterilization and deodorization of dielectric surfaces, Plasma Chemistry and Plasma Processing 19 (2), pp. 311-326.
- Laroussi, M., Leipold, F., 2004, Evaluation of the roles of reactive species, heat and UV radiation in the inactivation of bacterial cells by air plasmas at atmospheric pressure, International Journal of Mass Spectrometry 233 (1-3), pp. 81-86.
- Leclere, V., Marti, R., Bechet, M., Fickers, P., Jacques, P. 2006, ‘’The lipopeptides mycosubtilin and surfactin enhance spreading of Bacillus subtilis strains by their surface-active properties’’. Arch Microbiol 186: 475-483
- Lerouge, S., Wertheimer, M. R., Yahia, L.H., 2001, Plasma Sterilization: A Review of Parameters, Mechanisms and Limitations, Plasmas and Polymers 6 (3), pp. 175-188.
- Lezcano, I., Nunez, N., Espino, M., Gomez, M. 2000a. ‘’Antibacterial activity of ozonized sunflower oil,oleozon, against S. aureus and S. Epidermidis’’, Ozone Sci Eng, 22, 207–14.
- LezcanoI, I., Perez Rey, R., Gutiérrez, M.S., Baluja, C., Sanchez, E. 2000b.’’Ozone inactivationofmicroorganisms in water. Gram-positive bacteria and yeast’’, Ozone Sci Eng, 23, 183-187.
- Morar, R., Suarasan, I., Budu, S., Ghizdavu, I., Porca, M., Dascalescu, L., 1997, Corona discharge effects on some parasitical insects of cultured plants, Journal of Electrostatics 40-41, pp. 669-673.
- Moreau, M., Feuilloley, M.G.J., Veron, W., Meylheuc, T., Chevalier, S., Brisset, J.-L., Orange, N., 2007, Gliding arc discharge in the potato pathogen Erwinia carotovora subsp. atroseptica: mechanism of the lethal action and effect on membrane-associated molecules, Applied and Environmental Microbiology 73 (18), pp. 5904-5910.
- Moreau, M.,Orange, N., Feuilloley, M.G.J. 2008. “Non-thermal plasma technologies: New tools for bio-decontamination”, Biotechnology Advances, 26, 610–617.
- Mysore, C., Leparc, J., Lake, R., Agutter, P., Prévost, M. 2004. ‘’Comparing static mixer performances at pilot and full scale for ozonation, inactivation of Bacillus subtilis and bromate formation in water treatment’’, Ozone Sci Eng, 26, 207–215.
- Nelson, C.L., Berger, T.J., 1989, Inactivation of microorganisms by oxygen gas plasma, Current Microbiology 18 (4), pp. 275-276.
- Nijdam, S., Veldhuizen, E., Bruggeman, P., Ebert, U., An Introduction to Nonequilibrium Plasmas at Atmospheric Pressure. Plasma Chemistry and Catalysis in Gases and Liquids, (eds: Parvulescu, V.I., Magureanu, M., Lukes, P.), First Edition, Wiley-VCH Verlag GmbH & Co., 2012.
- Rose, M. J., Stephen, J.R., Aron, A., Janicki, B.R., Effect of Various Nonionic Surfactants on Growth of Escherichia coli, Journal of Bacteriology, 91, 1863-1868
- Sen Y., Mutlu M.; Sterilization of Food Contacting Surfaces via Non-Thermal Plasma Treatment: A model study with Escherichia coli Contaminated Stainless Steel and Polyethylene Surfaces, Food and Bioprocess Technology, 2013, Volume 6, Issue 12, 3295-3304.
- Soloshenko, I.A., Khomich, V.A., Tsiolko, V.V., Mikhno, I.L., Shchedrin, A.I., Ryabtsev, A.V., 1999, Experimental and theoretical investigation of cold sterilization ofmedical instruments by plasma DC glow discharge XIVth International Symposium on Plasma Chemistry, Prague, Tchecoslovakia; pp. 2551-2556.
- Terajima, T., Koinuma, H., Development of a combinatorial atmospheric pressure cold plasma reactor, Applied Surface Science 223 (1-3), pp. 259-263.
- Vitrac H, Guespin-Michel J, Brisset JL., 2000, ‘’A microbiological investigation of the gliding arc treatment of aqueous media’’, In the proceedings of the International Symposium on High Pressure, Low Temperature Plasma Chemistry, Hakone VII, Greifswald, Germany, 393–397.
- Vitrac, H., Guespin-Michel, J., Brisset, J.L., 2000, A microbiological investigation of the gliding arc treatment of aqueous media, International Symposium on High Pressure, Low Temperature Plasma Chemistry, Hakone VII, Greifswald, Germany, pp. 393-7.
- Yao, K.S.,Wang, D.Y., Chang, C.Y.,Weng, K.W., Yang, L.Y., Lee, S.J. 2007. ‘’Photocatalytic disinfection of phytopathogenic bacteria by dye-sensitized TiO2 thin film activated by visible Light’’, Surf Coat Technol, 2007, 202,1329–32.
- Yoshizumi, M., Tsuchiya, K., Tamaki, T., 2001, Signal transduction of reactive oxygen species and mitogen-activated protein kinases in cardiovascular disease, The journal of medical investigation : JMI 48 (1-2), pp. 11-24.
- Yousefi Rad, A., Ayhan, H., Kisa, U., Piskin, E., 1998, Adhesion of different bacterialstrains to low temperature plasma treated biomedical PVC catheter surfaces, Journal of Bioactive and Compatible Polymers 13 (2), pp. 81-101.
| APA | Mutlu M, ULUSOY B, DAŞAN B (2014). Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları. , 1 - 47. |
| Chicago | Mutlu Mehmet,ULUSOY Baran Önal,DAŞAN Beyhan Günaydın Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları. (2014): 1 - 47. |
| MLA | Mutlu Mehmet,ULUSOY Baran Önal,DAŞAN Beyhan Günaydın Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları. , 2014, ss.1 - 47. |
| AMA | Mutlu M,ULUSOY B,DAŞAN B Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları. . 2014; 1 - 47. |
| Vancouver | Mutlu M,ULUSOY B,DAŞAN B Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları. . 2014; 1 - 47. |
| IEEE | Mutlu M,ULUSOY B,DAŞAN B "Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları." , ss.1 - 47, 2014. |
| ISNAD | Mutlu, Mehmet vd. "Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları". (2014), 1-47. |
| APA | Mutlu M, ULUSOY B, DAŞAN B (2014). Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları. , 1 - 47. |
| Chicago | Mutlu Mehmet,ULUSOY Baran Önal,DAŞAN Beyhan Günaydın Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları. (2014): 1 - 47. |
| MLA | Mutlu Mehmet,ULUSOY Baran Önal,DAŞAN Beyhan Günaydın Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları. , 2014, ss.1 - 47. |
| AMA | Mutlu M,ULUSOY B,DAŞAN B Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları. . 2014; 1 - 47. |
| Vancouver | Mutlu M,ULUSOY B,DAŞAN B Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları. . 2014; 1 - 47. |
| IEEE | Mutlu M,ULUSOY B,DAŞAN B "Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları." , ss.1 - 47, 2014. |
| ISNAD | Mutlu, Mehmet vd. "Işıltılı ark boşalım mikroplazmasının çevre ve biyomedikal uygulamaları". (2014), 1-47. |
