Научная литература
booksshare.net -> Добавить материал -> Биология -> Тёрнер Э. -> "Биосенсоры: основы и приложения" -> 207

Биосенсоры: основы и приложения - Тёрнер Э.

Тёрнер Э., Карубе И., Уилсон Дж. Биосенсоры: основы и приложения — М.: Мир, 1992. — 614 c.
Скачать (прямая ссылка): biosensoriosnoviiprilojeniya1992.djvu
Предыдущая << 1 .. 201 202 203 204 205 206 < 207 > 208 209 210 211 212 213 .. 355 >> Следующая

response analysis. Solartron Electronic Group, Farnborough, 1980.
81 Gabrielli C., Keddam M. Progres recent dans la mesure des impedances
electrochemiques en regime sinusoidal. Electrochim. Acta, 19, 355-62
(1974).
82. Gabrielli C., Takenouti H. The use of A.C. techniques in the study of
corrosion and passivity. In Corrosion: aqueous processes and passive
films. Treatise on materials science and technology (ed. J.C. Scully),
Vol. 23, pp. 395- 451. Academic Press, New York, 1963.
83. Gabrielli C" Huet F., Keddam M" Lizee J.P. Measurement-time versus
accuracy trade-off analysed for electrochemical impedance measurements by
means of sine, white noise and step signals. J. Electroanal. Chem., 138,
201 -8 (1982).
84. Geckinli N. C" Yavuz D. Discrete Fourier transformation and its
applications to power spectra estimation. Elsevier, Amsterdam, 1983.
85. Geddes LA. Electrodes and the measurement of bioelectric events.
Wiley-Interscience, New York, 1972.
86. Gerber B. R" Routledge L. М., Takashima S. Self-assembly of bacterial
flagellar protein: Dielectric behaviour of monomers and polymers. J. Mol.
Biol, 71, 317 -37 (1972).
87. Gerson D. F. The pressure fluctuation spectrum as a measure of mixing
and emulsification in a biochemical reactor, Eur. J. Appl. Microbiol.
Biotechnol., 10, 59-72 (1980).
88. Grant E. EL. The dielectric method of investigating bound water in
biological material: an appraisal of the technique. Bioelectromagnetics,
3, 17-24 (1982).
24 1145
370
Глава 24
89. Grant Е. Н. Molecular interpretation of the dielectric behaviour of
biological materials. In Biological effects of dosimetry of nonionizing
radiation (eds. M. Gandolfo, S. M. Michaelson, A. Rindi), pp. 179-94.
Plenum Press, New York, 1983.
90. Grant E. H., South G. P. Dielectric relaxation of proteins in aqueous
solutions. Adv. Mol. Rel. Proc., 3, 355-77 (1972).
91. Grant E.H., Sheppard R.J., South G. P. Dielectric behaviour of
biological molecules in solution. Oxford University Press, London, 1978.
92. Hanai T" Haydon D.A., Taylor J. An investigation by electrical
methods of lecithin-in-hydrocarbon
films in aqueous solutions. Proc. R. Soc. Ser. A, 281, 377-91 (1964).
93. Hanai T. Polar group orientation and the electrical properties of
lecithin biomolecular leaflets. J. Theoret. Biol. 9, 278-96 (1965).
94. Harris С. М., Kell D. В. The radio-frequency dielectric properties of
yeast cells measured with a rapid, automated, frequency-domain dielectric
spectrometer. Bioelectrochem. Bioenerg., 11, 15-28
(1983).
95. Harris С. M. On the dielectrically observable consequences of the
diffusional motions of lipids and proteins in membranes. 2. Experiments
with microbial cells, protoplasts and membrane vesicles. Eur. Biophys. J"
13, 11-24 (1985).
96. Harris C.M. The estimation of microbial biomass. Biosensors
J., 1, 17-84 (1985).
97. Harris C.M., Hitchens G.D., Kell D.B. Dielectric spectroscopy
of microbial membrane systems. In
Charge and field effects in biosystems (eds. M.J. Allen, P. N. R.
Usherwood), pp. 179 -85. Abacus Press, Turnbridge Wells, UK, 1984.
98. HartF.X. The use of time domain dielectric spectroscopy to
characterize the progress of wound repair. J. Bioelectricity, 1, 313-28
(1982).
99. Harter J. H., Lin R. Y. Essentials of electric circuits. Reston
Publishing Company, Reston, Vinginia, USA, 1982.
100. Hasted J. B. Aqueous dielectrics. Chapman and Hall, London, 1973.
101. Hasted J. B., Husain S. К., Ко A. Y, Rosen D., Nicol E" Birch J. R.
Excitations of proteins by electric fields. In Coherent excitations in
biological systems (eds. H. Frohlich, F. Kremer). pp. 71-83. Springer-
Verlag, Heidelberg, 1983.
102. Hause L.L.. Komorowski R.A., Gayon F. Electrode and electrolyte
impedance in the detection of bacterial growth. IEEE Trans. Biomed. Eng.,
BME-28, 403-10 (1981).
103. Haydon D. A., Hendry В. М., Levinson S. R., Requena J. Anaesthesia
by the п-alkanes. A comparative study of nerve impulse blockage and the
properties of black lipid bilayer membrans. Biochim. Biophys. Acta, 470,
17-34 (1977).
104. Henderson R. P., Webster J.G. An impedance camera for spatially
specific measurements of the thorax. IEEE Trans. Biomed. Eng., BME-25,
250-54 (1978).
105. LLoller F. J., Enke C.G. Conductivity and conductimetry. In
Laboratory techniques in electroana-lytical chemistry (eds. P.T.
Kissinger, W.R. Heineman), pp. 235-66. Marcel Dekker, New York,
1984.
106. Hung B. N.. Beard R. B., Brownstein М., Dubin S. E., Niazy N..
Miller A. J. Correlation of linear A. C. polarization impedance studies
with tissue in-growth for porous stimulating electrodes. In Electrical
properties of bone and cartilage (eds. С. T. Brighton, J. Black, S. R.
Pollack), pp. 249-66. Grune and Stratton, New York, 1979.
107. Ulinger K.H. Electromagnetic-field interaction with biological
systems in the microwave and far-infrared region. Physical basis. ACS
Предыдущая << 1 .. 201 202 203 204 205 206 < 207 > 208 209 210 211 212 213 .. 355 >> Следующая

Реклама

c1c0fc952cf0704ad12d6af2ad3bf47e03017fed

Есть, чем поделиться? Отправьте
материал
нам
Авторские права © 2009 BooksShare.
Все права защищены.
Rambler's Top100

c1c0fc952cf0704ad12d6af2ad3bf47e03017fed