http://orcid.org/0000-0002-8345-0423
References
- Ozbay E. Plasmonics: merging photonics and electronics at nanoscale dimensions. Science. 2006;311:189–193.
- Burda C, Chen X, Narayanan R, et al. Chemistry and properties of nanocrystals of different shapes. Chem Rev. 2005;105:1025–1102.
- Mason MG. Electronic structure of supported small metal clusters. Phys Rev B. 1983;27:748–762.
- Meng Q, Ye Q, Liu W, et al. Application of precious metal catalysts in drug synthesis. Precious Metals. 2012;33:78–82.
- Hsu M-S, Chen Y-L, Lee C-Y, et al. Gold nanostructures on flexible substrates as electrochemical dopamine sensors. ACS Appl Mater Interfaces. 2012;4:5570–5575.
- Abad JM, Mertens SFL, Pita M, et al. Functionalization of thioctic acid-capped gold nanoparticles for specific immobilization of histidine-tagged proteins. J Am Chem Soc. 2005;127:5689–5694.
- Nitzan A, Ratner MA. Electron transport in molecular wire junctions. Science. 2003;300:1384–1389.
- Shi F, Zhang Q, Ma Y, et al. From CO oxidation to CO2 activation: an unexpected catalytic activity of polymer-supported nanogold. J Am Chem Soc. 2005;127:4182–4183.
- Fu Y, Li P, Wang T, et al. Novel polymeric bionanocomposites with catalytic Pt nanoparticles label immobilized for high performance amperometric immunoassay. Biosens Bioelectron. 2010;25:1699–1704.
- Chen G, Li Y, Wang D, et al. Carbon-supported Pt Au alloy nanoparticle catalysts for enhanced electrocatalytic oxidation of formic acid. J Power Sources. 2011;196:8323–8330.
- Gu H-Y, Yu A-M, Chen H-Y. Direct electron transfer and characterization of hemoglobin immobilized on a Au colloid–cysteamine-modified gold electrode. J Electroanal Chem. 2001;516:119–126.
- Liu G, Riechers SL, Mellen MC, et al. Sensitive electrochemical detection of enzymatically generated thiocholine at carbon nanotube modified glassy carbon electrode. Electrochem Commun. 2005;7:1163–1169.
- Li C, Wang H, Yamauchi Y. Electrochemical deposition of mesoporous Pt–Au alloy films in aqueous surfactant solutions: towards a highly sensitive amperometric glucose sensor. Chem Eur J. 2013;19:2242–2246.
- El-Deab MS, Okajima T, Ohsaka T. Fabrication of Phase-separated multicomponent self-assembled monolayers at gold nanoparticles electrodeposited on glassy carbon electrodes. J Electrochem Soc. 2006;153:E201–E206.
- Kolb DM, Engelmann GE, Ziegler JC. Nanoscale decoration of electrode surfaces with an STM. Solid State Ionics. 2000;131:69–78.
- Kolb DM, Ullmann R, Will T. Nanofabrication of small copper clusters on gold(111) electrodes by a scanning tunneling microscope. Science. 1997;275:1097–1099.
- Abad JM, Gass M, Bleloch A, et al. Direct electron transfer to a metalloenzyme redox center coordinated to a monolayer-protected cluster. J Am Chem Soc. 2009;131:10229–10236.
- Jensen PS, Chi Q, Grumsen FB, et al. Gold nanoparticle assisted assembly of a heme protein for enhancement of long-range interfacial electron transfer. J Phys Chem C. 2007;111:6124–6132.
- Yonezawa T, Kunitake T. Practical preparation of anionic mercapto ligand-stabilized gold nanoparticles and their immobilization. Colloids Surfaces A: Physicochem Eng Aspects. 1999;149:193–199.
- Shein JB, Lai LMH, Eggers PK, et al. Formation of efficient electron transfer pathways by adsorbing gold nanoparticles to self-assembled monolayer modified electrodes. Langmuir. 2009;25:11121–11128.
- Liu F, Khan K, Liang J-H, et al. On the hopping efficiency of nanoparticles in the electron transfer across self-assembled monolayers. Chem Phys Chem. 2013;14:952–957.
- Liu F, Gu Y, Hu J, et al. Two phase preparation of small size of precious metal nanoparticles modified with mercapto carboxylic acid. Precious Metals. 2015;35:1–5.
- Fink J, Kiely CJ, Bethell D, et al. Self-organization of nanosized gold particles. Chem Mater. 1998;10:922–926.
- Hagenström H, Schneeweiss MA, Kolb DM. Modification of a Au(111) electrode with ethanethiol. 1. Adlayer structure and electrochemistry. Langmuir. 1999;15:2435–2443.
- Aliganga AKA, Duwez A-S, Mittler S. Binary mixtures of self-assembled monolayers of 1,8-octanedithiol and 1-octanethiol for a controlled growth of gold nanoparticles. Org Electron. 2006;7:337–350.
- Kaun C-C, Guo H. Resistance of alkanethiol molecular wires. Nano Lett. 2003;3:1521–1525.
- Murata K, Kajiya K, Nukaga M, et al. A simple fabrication method for three-dimensional gold nanoparticle electrodes and their application to the study of the direct electrochemistry of cytochrome c. Electroanalysis. 2010;22:185–190.
- Liu H, Favier F, Ng K, et al. Size-selective electrodeposition of meso-scale metal particles: a general method. Electrochim Acta. 2001;47:671–677.
- Engelbrekt C, Sørensen KH, Lübcke T, et al. 1.7 nm platinum nanoparticles: synthesis with glucose starch, characterization and catalysis. Chem Phys Chem. 2010;11:2844–2853.
- Soreta TR, Strutwolf J, Henry O, et al. Electrochemical surface structuring with palladium nanoparticles for signal enhancement. Langmuir. 2010;26:12293–12299.