Диссертация (1150270), страница 23
Текст из файла (страница 23)
2011. Vol. 156. P. 1371-8.~ 158 ~48. Сляднев, М. Н. Модифицирование поверхности микрореакторовмикрофлюидного чипа для проведения полимеразно-цепной реакции в режимереального времени. / М. Н. Сляднев, М. В. Лаврова, М. А. Еркин, Д. В.Нàволоцкий, А. В. Крисько, А. А. Ганеев. // НАУЧНОЕ ПРИБОРОСТРОЕНИЕ,2007. Том 17. № 3.49. Cakir O.
Chemical etching of aluminium. Journal of materials processingtechnology. 199. 2008. 337–34050. Breslin, C. B. Studies on the passivation of aluminium in chromate and molybdatesolutions. C. B. Breslin, G. Treacy, W. M. Carroll. Corrosion Science, Vol. 36, No. 7(1994) 1143-1154.51. Tammy L. Metroke, Jaspreet S. Gandhi, Allen Apblett. Corrosion resistanceproperties of Ormosil coatings on 2024-T3 aluminum alloy.
Progress in OrganicCoatings 50 (2004) 231–24652. Лисичкин, Г. В. Химия привитых поверхностных соединений / Г.В. Лисичкин,А.Ю. Фадеев, А.А. Сердан, П.Н. Нестеренко, П.Г. Мингалев, Д.Б. Фурман. –Москва, ФИЗМАТЛИТ (2003).53. Pfohl, C. Application of wear-resistant PACVD coatings in aluminium diecasting:economical and ecological aspects.
C. Pfohl, A. Gebauer-Teichmann, K.-T. Rie. Surfaceand Coatings Technology 112 (1999) 347–350.54. Ravi, N. Deposition of diamond-like carbon films on aluminium substrates by RFPECVD technique: Influence of process parameters. N. Ravi, V.L. Bukhovets, I.G.Varshavskaya, G. Sundararajan. Diamond & Related Materials 16 (2007) 90–9755. Elly Gil, J.B. Park, J.S. Oh, G.Y. Yeom. Characteristics of SiOx thin films depositedby atmospheric pressure chemical vapor deposition as a function of HMDS/O2 flowrate.
Thin Solid Films 518 (2010) 6403–640756. Zaninia, Stefano. Characterisation of SiOxCyHz thin films deposited by lowtemperature PECVD. Stefano Zaninia, Claudia Riccardia, Marco Orlandib, ElisaGrimoldia. Vacuum 82. 2008. 290–29357. Friedrich. Mechanisms of Plasma Polymerization – Reviewed from a ChemicalPoint of View// Plasma Process. Polym. 2011, 8, 783–80258.
Roualdes, S. Plasma Membranes. S. Roualdes, V. Rouessac, J. Durand.UniversiteMontpellier, Montpellier, France~ 159 ~59. Широбоков М.А. Исследование процессов формирования и антикоррозионныхсвойств полимерных пленок, полученных в низкотемпературной плазмепредельных углеводородов: Автореферат дисс. … канн. хим. наук. Ижевск. 2006.24 с60. Yasuda, H. Plasma Polymerization, Academic Press Inc.: Orlando, FL, 1985.61. Andrew, J. Hinton Determination of coating adhesion using electrochemicalimpedance spectroscopy. Solartron Materials Test, p.4.62. Bonora, P.L.
Electrochemica Acta. P.L. Bonora, F. Deforlorian and L Fedrizzi. 41.1073. 199663. Albery W.J., Elliott C.M., Mount A.R. A Transmission Line Model for ModifiedElectrodes and Thin Layer Cells. // J. Electroanal. Chem. 1990.V. 288. Р. 15-34.64. Marie-Georges Olivier and Mireille Poelman (2012). Use of ElectrochemicalImpedance Spectroscopy (EIS) for the Evaluation of Electrocoatings Performances,Recent Researches in Corrosion Evaluation and Protection, Prof. Reza Shoja Razavi(Ed.), ISBN: 978-953-307-920-265.
Katsuya Teshima, Yasushi Inoue, Hiroyuki Sugimura, Osamu Takai. Growth andstructure of silica films deposited on a polymeric material by plasma-enhanced chemicalvapor deposition . Thin Solid Films 420 –421 (2002) 324–32966. Zhe Liu, Yanchun Dong, Zhenhua Chu, Yong Yang, Yingzhen Li, Dianran Yan.Corrosion behavior of plasma sprayed ceramic and metallic coatings on carbon steel insimulated seawater.
Materials and Design 52 (2013) 630–63767. N. Sharma et al. Scratch resistance and tribological properties of DLC coatingsunder dry and lubrication conditions Tribology International 56 (2012) 129–14068. Schwarz, Ch. Investigation on wear and adhesion of graded Si/SiC/DLC coatingsdeposited by plasma-enhanced-CVD.
Ch. Schwarz, J. Heeg, M. Rosenberg, MarionWienecke. Diamond & Related Materials 17 (2008) 1685–1688.69. Casiraghi, C. Raman spectroscopy of hydrogenated amorphous carbons,PHYSICAL REVIEW B 7270. C. Casiraghi, A.C. Ferrari, J. Robertson. 085401 – 2005.~ 160 ~71. Kim, Y.T. Dependence of the bonding structure of DLC thin films on thedeposition conditions of PECVD method. Y.T. Kim, S.M.
Cho, W.S. Choi, B. Hong,D.H. Yoon. Surface and Coatings Technology. 169 –170. 2003. 291–294.72. Chen D., Mauk M., Qiu X., Liu C., Kim J., Ramprasad S., Ongagna S., AbramsW.R., Malamud D., Corstjens P.L., Bau H.H. // Biomed Microdevices. 2010. Vol. 12. P.705-19.73. Soham Shukla Freeze drying process: a review / Soham Shukla // InternationalJournal of Pharmaceutical Sciences and Research.
– 2011.74. Understanding Lyophilization Formulation Development / Frank Kofi Bedu-Addo,PhD et al. // Biopharmaceuticals. – 2004. – p. 10-18.75. Suzanne B. Treml, Cristine J. Dall, Connie A. Draveling, James F. Jolly, Rama P.Ramanujam, патент «Biological reagent spheres» US 5763157, C07H021/00, 1995.76. Design of Stable Lyophilized Protein Formulations: Theory and Practice /Carpenter JF, Chang BS et al.
// Rational Pharm Biotechnol. – 2002. -№ 13. –p. 109133.77. G. Day, Glyn N.// Lyophilization of Proteins. - Humana Press. – 2007. –p. 59-6478. Pikal MJ. Freeze-drying of Proteins/ Pikal MJ // Part I: Process Design. BioPharm. –1990. -№ 3. -p. 18-27.79. Jiang, S. Effect of process conditions on recovery of protein activity after freezingand freeze-drying / Jiang, S.
and Nail, S. L// Eur. J. Pharm. Biopharm. – 1998. - № 45. –p. 245–257.80. Dong A Infrared spectroscopic studies of lyophilization- and temperature-inducedprotein aggregation / Dong A, Prestrelski SJ et al. // Pharmacol.Sci. – 1995. -№ 84. –p.415–424.81. Prestrelski SJ Separation of freezing- and drying induced denaturation oflyophilized proteins by stress-specific stabilization: II. Structural studies using infraredspectroscopy / Prestrelski SJ, Arakawa T, Carpenter JF.// Arch.
Biochem. Biophys. 1999.– p. 465–473.82. Physical factors affecting the storage stability of freeze-dried interleukin-1 receptorantagonist: glass transition and protein conformation / Chang BS, Beauvais RM, DongA, Carpenter JF. // Arch. Biochem. Biophys. - 1996.
- (331). – p. 249–258.~ 161 ~83. Carpenter JF Lyophilization of protein pharmaceuticals. In Biotechnology andBiopharmaceutical Manufacturing, Processing and Preservation / Carpenter JF, ChangBS. // Intepharm Press. - 1996. – p. 199–263.84. Pikal, M.J. Mechanisms of Protein Satbilization during Freeze-Drying and Storage:The Relative Importance of Thermodynamic Stabilization and Glassy State RelaxationDynamics / Pikal, M.J.
// Freeze-Drying. Lyophilization of Pharmaceutical andBiological Products (Drugs and the Pharmaceutical Sciences. 2004. - Volume 137. –p.93-108.85. Lai, M.C. Solid-state chemical stability of proteins and peptides / Lai, M.C. andTopp, E.M // Journal of Pharmaceutical Sciences. – 1999.
- 88 (5). – p. 489-500.86. Carpenter, J.F. An infrared spectroscopic study of the interactions of carbohydrateswith dried proteins / Carpenter, J.F. and Crowe, J.H. // Biochemistry. – 1989. - 28 (9). –p. 3916-3922.87. Crowe, J.H. Preserving dry biomaterials: the water replacement hypothesis. Part 1/Crowe, J.H., Crowe, L.M., and Carpenter, J.F. // BioPharm (Eugene, Oreg.). – 1993. - 6(3). – p.
28 - 32.88. Prestrelski, S.J. Structure of proteins in lyophilized formulations using Fouriertransform infrared spectroscopy / Prestrelski, S.J., Arakawa, T., and Carpenter, J.F. //ACS Symposium Series. – 1994. – p. 148-169.89. Gupta MN Enzymes in organic media. Forms, functions and applications /Gupta MN and Roy I. // Eur J Biochem. - 2004. – 271. – p. 2575-2583.90. Franks, F. Materials science and the production of shelf-stable biologicals / Franks,F., Hatley, R.H.M., and Mathias, S.F. // BioPharm (Eugene, Oreg.).
- 1991. - 4 (9). – p.38, 40-42, 55.91. Slade, L. Beyond water activity: recent advances based on an alternative approach tothe assessment of food quality and safety. Сritical reviews in food science and nutrition/ Slade, L. and Levine, H. Beyond // 1991. - 30 (2-3). – p. 315-360.92. Effect of sorbitol and residual moisture on the stability of lyophilized antibodies:Implications for the mechanism of protein stabilization in the solid state / Chang, L.,Shepherd et al. // Journal of Pharmaceutical Sciences. – 2005.
- 94 (7). – p. 1445-1455.93. Mechanism of protein stabilization by sugars during freeze-drying and storage:Native structure preservation, specific interaction, and/or immobilization in a glassy~ 162 ~matrix / Chang, L., Shepherd, D. et al // Journal of Pharmaceutical Sciences. – 2005. 94 (7). – p. 1427-1444.94. Shamblin, S.L. Сoupling between chemical reactivity and structural relaxation inpharmaceutical glasses / Shamblin, S.L., Hancock, B.C., and Pikal, M.J.
//Pharmaceutical Research. – 2006. - 23 (10). – p. 2254-2268.95. Yoshioka, S. Quantitative assessment of the significance of molecular mobility as adeterminant for the stability of lyophilized insulin formulations / Yoshioka, S. and Aso,Y. // Pharmaceutical Research. - 2005. - 22 (8). –p. 1358-1364.96. Yoshioka, S. Correlations between molecular mobility and chemical stability duringstorage of amorphous pharmaceuticals / Yoshioka, S. And Aso, Y.// Journal ofPharmaceutical Sciences.
– 2007. - 96 (5). – p. 960-981.97. Rudolph AS Membrane stabilization during freezing: the role of two naturalcryoprotectants, trehalose and proline / Rudolph AS and Crowe JH // Cryobiology. –1985. – 22. - p. 367–377.98. Nancy L. Shen Stabilized compositions of reverse transcriptase and RNApolymerase for nucleic acid amplification inventors / Nancy L. Shen; Daniel L.
Kacian;James G. Putnam; William M. Davis// Patent Number: 5,556,771 Sep. 17, 1996.99. Thermostabilization and thermoactivation of thermolabile enzymes by trehaloseand its application for the synthesis of full length cDNA / Carninci, P., Nishiyama, Y. etal // Proc. Natl. Acad.
Sci. – 1998. – 95. –p. 520–524.100. Sola-Penna M. Carbohydrate protection of enzyme structure and function againstguanidinium chloride treatment depends on the nature of carbohydrate and enzyme /Sola-Penna M., Ferreira-Pereira A., Lemos A. P. and Meyer-Fernandes J.
R. // Eur. J.Biochem. -1997. – 248. – p. 24-29.101. Lee, J. C. The stabilization of proteins by sucrose / Lee, J. C. and Timasheff, S.N.// J. Biol. Chem. -1981. – 256. – p. 7193-7201.102. Xie, G. The thermodynamic mechanism of protein stabilization by trehalose / Xie,G., and Timasheff, S. // Biophys. Chem. – 1997. - Prog. 16. – p.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
