2012
DOI: 10.5796/electrochemistry.80.337
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The Effect of Particle Size on the Direct Electron Transfer Reactions of Metalloproteins Using Au Nanoparticle-Modified Electrodes

Abstract: For cyt c, the reduction and oxidation currents for the AuNP 7 -modified electrode were small compared to the other AuNP sizes (AuNP 15 and AuNP 70 ) with the same roughness factor (R f ). For BOD and FDH, the AuNP 70 -modified electrode had the best performance in terms of the catalytic current at the same R f . The results demonstrate that the size of spaces on the electrode surface is a very important factor governing the electron transfer reactions of proteins on an AuNP-modified electrode.

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Cited by 14 publications
(18 citation statements)
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“…[1] Owing to their high affinity to thiols they are an excellent platform for introducing functional moieties and for the surfacea ttachment of biological speciesi nacontrolled manner.A uNPs provide variability of chemical and physical properties whicha re strongly dependent on the nanoparticle's size. [5] Similar conclusions were presented for smaller nanoparticles with diameters ranging from 5 [6] and 7 [7] nm. For diameters below this value, the plasmon bands diminish andn ew bands are developedc orresponding to electronic transitions.…”
supporting
confidence: 80%
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“…[1] Owing to their high affinity to thiols they are an excellent platform for introducing functional moieties and for the surfacea ttachment of biological speciesi nacontrolled manner.A uNPs provide variability of chemical and physical properties whicha re strongly dependent on the nanoparticle's size. [5] Similar conclusions were presented for smaller nanoparticles with diameters ranging from 5 [6] and 7 [7] nm. For diameters below this value, the plasmon bands diminish andn ew bands are developedc orresponding to electronic transitions.…”
supporting
confidence: 80%
“…Optical effects, such as surface plasmon bands due to collective excitation of conduction electrons, are observed for nanoparticles with diameters above % 2nm. [5] Similar conclusions were presented for smaller nanoparticles with diameters ranging from 5 [6] and 7 [7] nm. [2] The electrochemical properties of AuNPs also vary with size and three types of behavior are observed:b ulk gold exhibits continuum behavior, small nanoparticles show quantum doublelayer charging, while the smallest-clusters, exhibit "moleculelike" behavior.V oltammograms of AuNPs, with diameters lower than 2nm, give voltammetry current peaks corresponding to a single electron transfer processes to or from the nanoparticle's metallicc ore, [3] whereas molecule-like processes are reflected in the oxidationa nd reduction signals, separated by ac learly developed HOMO-LUMOg ap.…”
supporting
confidence: 80%
“…1b; ESI †). Contrary to previous studies, in which AuNPs were adsorbed by drop-coating on electrode surfaces, 13,17,20,21 aerosol AuNPs were deposited with an average density of 80 particles mm geom À2 (i.e. number of particles per geometric area, A geom , also called 2D projected area, Fig.…”
mentioning
confidence: 99%
“…20,21 These contradictions indicate difficulties in setting up an experimental system by which the effect of the size of NPs on the thermodynamics and kinetics of redox reactions at enzyme-NP modied electrodes can be indisputably addressed.…”
mentioning
confidence: 99%
“…The large surface area of these nanostructures leads to high enzyme loading, which can improve the power density of enzymatic biofuel cells. Electrodes can have a large effective surface area after adding a concentrated solution of AuNPs to the surface [34]. The Au surface can be chemically modified with thiols.…”
Section: Ppadh Modified Nanostructured Electrode Using Pic and Pga-amfcmentioning
confidence: 99%