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Molecular and Biomolecular Electronics

Molecular and Biomolecular Electronics, American Chemical Society, 1994 ... [Pg.534]

J Zhang, MB Sponsler. In Molecular and Biomolecular Electronics, RR Birge, ed., ACS Advances in Chemistry Series No. 240 American Chemical Society ... [Pg.383]

M. A. Reed and A. C. Seabaugh, in Molecular and Biomolecular Electronics, edited by R. R. Birge (American Chemical Society, Washington DC, USA, 1994). [Pg.62]

Marx KA, Samuelson LA, Kamath M, Lim JO, Sengupta S, Kaplan D, Kumar J, Tripathy SK (1994) Inteligent biomaterials based on Langmuir-Blodgett monolayer films. In Birge BR (ed) Molecular and biomolecular electronics. Advanced in chemical series, Vol. 240. American Chemical Society Books, Washington, DC, pp 395-412 Maxwell CK, Diaz-Lano LG, Smith TK (2003) Mycotoxins in pet food. Agric Eood Chem 54 9623-9635... [Pg.413]

Ray field G W 1994 Photodiodes based on bacteriorhodopsin Molecular and Biomolecular Electronics (Advances in Chemistry Series 240) ed R R Birge (Washington, DC American Chemical Society) pp 561-75 Tanabe K, Hikuma M, SooMi L, Iwasaki Y, Tamiya E and Karube I 1989 Photoresponse of a reconstituted membrane containing bacteriorhodopsin observed by using an ion-selective field effect transistor J. Biotechnol. 10 127-34... [Pg.289]

American Chemical Society. In Birge RR, ed. Molecular and Biomolecular Electronics. Washington DC 1994 131-133, (491-510). [Pg.93]

Institute of Molecular and Biomolecular Electronics University College of North Wales Bangor, Gwynedd, LL57 lUT, U.K. [Pg.431]

Elements of Molecular and Biomolecular Electrochemistry An Electrochemical Approach to Electron Transfer Chemistry, By Jean-Michel Saveant Copyright 2006 John Wiley Sons, Inc. [Pg.1]

Chapters 4 and 5 are devoted to molecular and biomolecular catalysis of electrochemical reactions. As discussed earlier, molecular electrochemistry deals with transforming molecules by electrochemical means. With molecular catalysis of electrochemical reactions, we address the converse aspect of molecular electrochemistry how to use molecules to produce better electrochemistry. It is first important to distinguish redox catalysis from chemical catalysis. In the first case, the catalytic effect stems from the three-dimensional dispersion of the mediator (catalyst), which merely shuttles the electrons between the electrode and the reactant. In chemical catalysis, there is a more intimate interaction between the active form of the catalyst and the reactant. The differences between the two types of catalysis are illustrated by examples of homogeneous systems in which not only the rapidity of the catalytic process, but also the selectivity problems, are discussed. [Pg.502]

Saveant JM (2006) Elements of molecular and biomolecular electrochemistry an electrochemical approach to electron transfer chemistry. Wiley, Hoboken, NJ... [Pg.65]

Hammarstrom, L., Sun, L., Akermark, B., and Styring, S. (2001) A biomimetic approach to artificial photosynthesis Ru(II)-polypyridine photo-sensitizers linked to tyrosine and manganese 8. electron donors, Spectrochimica Acta, Part A Molecular and Biomolecular Spectroscopy 57A, 2145-2160. [Pg.201]

ELECTRONIC AND OPTICAL TRANSDUCTION OF PHOTOISOMERIZATION PROCESSES AT MOLECULAR-AND BIOMOLECULAR-FUNCTIONALIZED SURFACES... [Pg.219]

Substantial progress has been accomplished in the fabrication of molecular and biomolecular optoelectronic devices. Light-activated molecular and bio-molecular systems have been integrated with electronic transducers, and the optical switching of the systems has been electronically transduced to the macroscopic environment. In particular, the photonic switching of an electron-transfer cascade has allowed the amplified electronic transduction of an input... [Pg.258]

AuNPs in Liquid-State Environment Solute pure and monolayer-coated ( capped ) AuNPs are central targets in colloid and surface science also with a historical dimension [258-262]. Facile chemical syntheses introduced by Schmid et al. [260] and by Brust et al. [263] have boosted AuNP and other metal nanoparticle science towards characterization of the physical properties and use of these nanoscale metallic entities by multifarious techniques and in a variety of environments. Physical properties in focus have been the surface plasmon optical extinction band [264—269], scanning and transmission electron microscopy properties, and electrochemical properties of surface-immobilized coated AuNPs [173, 268-276], To this can be added a variety of AuNP crosslinked molecular and biomolecular... [Pg.120]

Hamacher E, Kruip J, Roegner M et al. Characterization of the primary electron donor of photosystem I, P700, by electrochemistry and Fourier ttansfbrm infrared (FTIR) difference spectroscopy. Spectroch. Acta Part A Molecular and Biomolecular Spectroscopy 1996 52A 107-121. [Pg.106]

FIGURE 2.4 Transmission electron microscopy image of gold nanoparticles prepared by a different method, showing various sizes and shapes. (Reprinted from Spectrochimica Acta Part A Molecular and Biomolecular Spectroscopy, 73, Philip, Honey mediated green synthesis of gold nanoparticles, 650-653. Copyright 2009, with permission from Elsevier.)... [Pg.9]


See other pages where Molecular and Biomolecular Electronics is mentioned: [Pg.4]    [Pg.5]    [Pg.247]    [Pg.325]    [Pg.260]    [Pg.439]    [Pg.93]    [Pg.353]    [Pg.4]    [Pg.5]    [Pg.247]    [Pg.325]    [Pg.260]    [Pg.439]    [Pg.93]    [Pg.353]    [Pg.684]    [Pg.342]    [Pg.221]    [Pg.259]    [Pg.184]    [Pg.221]    [Pg.259]    [Pg.450]    [Pg.56]    [Pg.102]   


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