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General:
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Hong, F. T. and Mauzerall, D.: The separation of
voltage-dependent photoemfs and conductances in Rudin-Mueller
Membranes containing magnesium porphyrins, Biochim.
Biophys. Acta 275:479-484, 1972. |
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Hong, F. T. and Mauzerall, D.: Photoemf at a
single membrane-solution interface specific to lipid
bilayers containing magnesium porphyrins, Nature New
Biol. (London) 240:154-155, 1972. |
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Hong, F. T. and Mauzerall, D.: Interfacial
photoreactions and chemical capacitance in lipid
bilayers, Proc. Natl. Acad. Sci. USA 71:1564-1568,
1974. |
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Hong, F. T. and Mauzerall, D.: Tunable voltage
clamp method - application to photoelectric effects in
pigmented bilayer lipid membranes, J. Electrochem.
Soc. 123:1317-1324, 1976. |
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Hong, F. T.: Charge transfer across pigmented
bilayer lipid membrane and its interfaces, Photochem.
Photobiol. 24:155-189, 1976. |
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Hong, F. T. and Montal, M.: Bacteriorhodopsin in
model membranes: a new component of the displacement
photocurrent in the microsecond time scale, Biophys.
J. 25:465-472, 1979. |
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Okajima, T. L. and
Hong, F. T.: Kinetic analysis
of displacement photocurrents elicited in two types of
bacteriorhodopsin model membranes, Biophys. J. 50:901-912, 1986. |
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Hong, F. T.: Effect of local conditions on
heterogeneous reactions in the bacteriorhodopsin
membrane: an electrochemical view, J. Electrochem.
Soc. 134:3044-3052, 1987. |
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Michaile, S. and
Hong, F. T.: Component analysis
of the fast photoelectric signal from model
bacteriorhodopsin membranes: Part I. effect of
multi-layer stacking and prolonged drying, Bioelectrochem. Bioenerg.
33:135-142, 1994. |
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Okajima, T. L., Michaile, S. and
Hong, F. T.:
Component analysis of the fast photoelectric signal from
model bacteriorhodopsin membranes: Part II. effect of
fluorescamine treatment, Bioelectrochem. Bioenerg.
33:143-149, 1994. |
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Hong, F. H., Chang, M., Ni, B., Needleman, R. B. and
Hong, F. T.: Component analysis of the fast
photoelectric signal from model bacteriorhodopsin
membranes: Part III. effect of the point mutation
aspartate 212 ®
asparagine 212, Bioelectrochem. Bioenerg. 33:151-158,
1994. |
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Hong, F. H. and
Hong, F. T.: Component analysis
of the fast photoelectric signal from model
bacteriorhodopsin membranes: Part 4. a method for
isolating the B2 component and the evidence for its
polarity reversal at low pH, Bioelectrochem. Bioenerg.
37:91-99, 1995. |
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Fuller, B. E., Okajima, T. L. and
Hong, F. T.:
Analysis of the d.c. photoelectric signal from model
bacteriorhodopsin membranes: d.c. photoconductivity
determination by means of the null current method and
the effect of proton ionophores, Bioelectrochem.
Bioenerg. 37:109-124, 1995. |
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Petrak, M. and
Hong, F. T.: Component analysis of
the fast photoelectric signal from model
bacteriorhodopsin membranes: Part 5. effect of chloride
ion transport blocker and cation chelators, Bioelectrochem. Bioenerg.
45:193-201, 1998. |
Review
articles, Book chapters (including Book and Magazine edited)
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Mauzerall, D. and Hong, F. T.: Photochemistry of
porphyrins in membranes and photosynthesis. In:
Porphyrins and Metalloporphyrins, 2nd Ed., Chap. 17
pp. 701-725. K. M. Smith, Ed., Elsevier, Amsterdam,
1975. |
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Hong, F. T.: Photoelectric and
magneto-orientation effects in pigmented biological
membranes, J. Colloid Interface Sci. 58:471-497,
1977. Reprinted in Colloid and Interface Science,
Vol. 1, pp. 497-523. M. Kerker, R. L. Rowell and A. C.
Zettlemoyer, Eds., Academic Press, New York, 1977. |
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Hong, F. T.: Mechanisms of generation of the
early receptor potential revisited, Bioelectrochem.
Bioenerg. 5:425-455, 1978. |
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Hong, F. T.: Displacement photocurrents in
pigment-containing biomembranes: artificial and natural
systems. In: Bioelectrochemistry: Ions, Surfaces,
Membranes, ACS Advances in Chemistry Series No. 188,
pp. 211-237. M. Blank, Ed., American Chemical Society,
Washington, DC, 1980. |
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Hong, F. T. and Okajima, T. L.: Electrical double
layers in pigment-containing biomembranes. In:
Electrical Double Layers in Biology, pp. 129-147. M.
Blank, Ed., Plenum Press, New York, 1986. |
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Hong, F. T.: Internal electric fields generated
by surface charges and induced by visible light in
bacteriorhodopsin membranes. In: Mechanistic
Approaches to Interaction of Electric and
Electromagnetic Fields with Living Systems, pp.
161-186. M. Blank and E. Findl, Eds., Plenum Press, New
York, 1987. |
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Hong, F. T. and Okajima, T. L.: Rapid
light-induced charge displacements in bacteriorhodopsin
membranes: an electrochemical and electrophysiological
study. In: Biophysical Studies of Retinal Proteins,
pp. 188-198. T. G. Ebrey, H. Frauenfelder, B. Honig, and
K. Nakanishi, Eds., University of Illinois Press,
Urbana-Champaign, 1987. |
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Hong, F. T.: Interfacial phenomena in
pigment-containing biomembranes. In: Interfacial
Phenomena in Biotechnology and Materials Processing,
pp. 89-104. Y. A. Attia, B. M. Moudgil and S. Chander,
Eds., Elsevier Science Publishers, Amsterdam, 1988. |
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Michaile, S., Duschl, A., Lanyi, J. K. and Hong, F.
T.: Chloride Ion modulation of the fast
photoelectric signal in halorhodopsin thin films. In:
Proceedings of the 12th Annual International Conference
of IEEE Engineering in Medicine and Biology Society,
Philadelphia, PA, November 1-4, 1990, pp. 1721-1723. B.
Oranal and P. C. Pedersen, Eds., Institute of Electrical
and Electronics Engineers, Inc. Washington, DC, 1990. |
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Hong, F. T.: Bioelectrochemical processes in
photobiological membranes. In: Biophysics of Membrane
Transport, Vol. 11, Part II, pp. 217-242. J. Kuczera
and S. Przestalski, Eds., Agricultural University of
Wroclaw, Wroclaw, Poland, 1992. |
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Hong, F. T.: Electrochemical processes in
membranes that contain bacteriorhodopsin. In:
Membrane Electrochemistry, pp. 531-560. M. Blank and
I. Vodyanoy, Eds., ACS Advances in Chemistry Series No.
235, American Chemical Society, 1994. |
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Hong, F. T.: The early receptor potential and its
analog in bacteriorhodopsin membranes. In: Handbook
of Organic Photochemistry and Photobiology, pp.
1545-1556. W. Horspool and P.-S. Song, Eds., CRC Press,
Boca Raton, FL, 1995. |
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Hong, F. T.: Molecular electronic switches in
photobiology. In: Handbook of Organic Photochemistry
and Photobiology, pp. 1557-1567. W. Horspool and
P.-S. Song, Eds., CRC Press, Boca Raton, FL, 1995. |
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Hong, F. T.: Molecular Sensors based on the
photovoltaic effect of bacteriorhodopsin: origin of
differential responsivity, Material Science and
Engineering: C. Biomimetic Materials, Sensors and
Systems, 4:267-285, 1997. |
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ERRATUM: Hong, F. T.: Molecular Sensors based on
the photovoltaic effect of bacteriorhodopsin: origin of
differential responsivity, Material Science and
Engineering: C. Biomimetic Materials, Sensors and
Systems, 5:61-79, 1997. |
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Hong, F. T.:
Interfacial photochemistry of retinal proteins,
Progress in Surface Science, 62(1-6):1-237,
1999. |
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Hong, F. T.: Interfacial photochemistry in
biomembranes: In: Handbook of Photochemistry and
Photobiology, Vol. 4, Chapter 13, pp. 383-430. H. S.
Nalwa, Ed., American Scientific Publishers, Stevenson
Ranch, CA, 2003. |
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Hong, F. T.: The early receptor potential and its
analog in bacteriorhodopsin membranes. In: CRC
Handbook of Organic Photochemistry and Photobiology,
Chapter 128, pp. 128-1–128-25. W. M. Horspool and F.
Lenci, Eds., CRC Press, Boca Raton, FL, 2004. |
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Hong, F. T.: Molecular electronic switches in
photobiology. In: CRC Handbook of Organic
Photochemistry and Photobiology, Chapter 134, pp.
134-1–134-26. W. M. Horspool and F. Lenci, Eds., CRC
Press, Boca Raton, FL, 2004. |
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Hong, F. T.:
Photoelectric
biosensor: fundamentals and innovative designs.
In: Smart Sensor Technology, pp. 385-435. G. K.
Knopf and A. S. Bassi, Eds., CRC Press, Boca Raton, FL,
London and New York, 2006. |
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