Nano-Electrochemical Detection of Hydrogen or Protons Using Palladium Nanoparticles: Distinguishing Surface and Bulk Hydrogen

The benefits of using nanoparticle‐modified electrodes are exemplified through the electrochemical detection of protons and/or hydrogen. It is shown that a palladium‐nanoparticle‐modified boron‐doped diamond allows voltammetric information relating to the relative roles played by the surface and the...

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Published in	Chemphyschem Vol. 7; no. 5; pp. 1081 - 1085
Main Authors	Batchelor-McAuley, Christopher, Banks, Craig E., Simm, Andrew O., Jones, Timothy G. J., Compton, Richard G.
Format	Journal Article
Language	English
Published	Weinheim WILEY-VCH Verlag 12.05.2006 WILEY‐VCH Verlag Wiley
Subjects	Chemistry Colloidal state and disperse state electrocatalysis Electrochemistry Exact sciences and technology General and physical chemistry hydrogen Kinetics and mechanism of reactions nanoparticles palladium Physical and chemical studies. Granulometry. Electrokinetic phenomena Electrocatalysis nanoparticles Hydrogen Nanoparticle Electrochemistry Proton Transition metal Palladium Chemical sensor Platinoid
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Abstract	The benefits of using nanoparticle‐modified electrodes are exemplified through the electrochemical detection of protons and/or hydrogen. It is shown that a palladium‐nanoparticle‐modified boron‐doped diamond allows voltammetric information relating to the relative roles played by the surface and the bulk metal to be obtained for the proton–hydrogen system at palladium surfaces which is not accessible using palladium macroelectrodes or microelectrodes. A deeper insight into the Pd/H2/H+ system: The electrochemical response of a palladium‐nanoparticle‐modified boron‐doped diamond (BDD) electrode for the electrochemical detection of protons and/or hydrogen (see cyclic voltammogram for the reduction of PdCl2 in H2SO4 at a BDD electrode) is explored. The roles played by the surface‐ and bulk‐absorbed hydrogen, which cannot be observed at palladium macro‐ or microelectrodes, are identified.
AbstractList	The benefits of using nanoparticle‐modified electrodes are exemplified through the electrochemical detection of protons and/or hydrogen. It is shown that a palladium‐nanoparticle‐modified boron‐doped diamond allows voltammetric information relating to the relative roles played by the surface and the bulk metal to be obtained for the proton–hydrogen system at palladium surfaces which is not accessible using palladium macroelectrodes or microelectrodes. A deeper insight into the Pd/H2/H+ system: The electrochemical response of a palladium‐nanoparticle‐modified boron‐doped diamond (BDD) electrode for the electrochemical detection of protons and/or hydrogen (see cyclic voltammogram for the reduction of PdCl2 in H2SO4 at a BDD electrode) is explored. The roles played by the surface‐ and bulk‐absorbed hydrogen, which cannot be observed at palladium macro‐ or microelectrodes, are identified. Abstract The benefits of using nanoparticle‐modified electrodes are exemplified through the electrochemical detection of protons and/or hydrogen. It is shown that a palladium‐nanoparticle‐modified boron‐doped diamond allows voltammetric information relating to the relative roles played by the surface and the bulk metal to be obtained for the proton–hydrogen system at palladium surfaces which is not accessible using palladium macroelectrodes or microelectrodes. The benefits of using nanoparticle-modified electrodes are exemplified through the electrochemical detection of protons and/or hydrogen. It is shown that a palladium-nanoparticle-modified boron-doped diamond allows voltammetric information relating to the relative roles played by the surface and the bulk metal to be obtained for the proton-hydrogen system at palladium surfaces which is not accessible using palladium macroelectrodes or microelectrodes.
Author	Simm, Andrew O. Jones, Timothy G. J. Compton, Richard G. Batchelor-McAuley, Christopher Banks, Craig E.
Author_xml	– sequence: 1 givenname: Christopher surname: Batchelor-McAuley fullname: Batchelor-McAuley, Christopher organization: Physical and Theoretical Chemistry Laboratory, Oxford University, South Parks Road, Oxford OX1 3QZ, United Kingdom, Fax: (+44) 01865-275410 – sequence: 2 givenname: Craig E. surname: Banks fullname: Banks, Craig E. organization: Physical and Theoretical Chemistry Laboratory, Oxford University, South Parks Road, Oxford OX1 3QZ, United Kingdom, Fax: (+44) 01865-275410 – sequence: 3 givenname: Andrew O. surname: Simm fullname: Simm, Andrew O. organization: Physical and Theoretical Chemistry Laboratory, Oxford University, South Parks Road, Oxford OX1 3QZ, United Kingdom, Fax: (+44) 01865-275410 – sequence: 4 givenname: Timothy G. J. surname: Jones fullname: Jones, Timothy G. J. organization: Schlumberger Cambridge Research, High Cross, Madingley Road, Cambridge, CB3 0EL, United Kingdom – sequence: 5 givenname: Richard G. surname: Compton fullname: Compton, Richard G. email: Richard.Compton@chem.ox.ac.uk organization: Physical and Theoretical Chemistry Laboratory, Oxford University, South Parks Road, Oxford OX1 3QZ, United Kingdom, Fax: (+44) 01865-275410
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Snippet	The benefits of using nanoparticle‐modified electrodes are exemplified through the electrochemical detection of protons and/or hydrogen. It is shown that a... The benefits of using nanoparticle-modified electrodes are exemplified through the electrochemical detection of protons and/or hydrogen. It is shown that a... Abstract The benefits of using nanoparticle‐modified electrodes are exemplified through the electrochemical detection of protons and/or hydrogen. It is shown...
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SubjectTerms	Chemistry Colloidal state and disperse state electrocatalysis Electrochemistry Exact sciences and technology General and physical chemistry hydrogen Kinetics and mechanism of reactions nanoparticles palladium Physical and chemical studies. Granulometry. Electrokinetic phenomena
Title	Nano-Electrochemical Detection of Hydrogen or Protons Using Palladium Nanoparticles: Distinguishing Surface and Bulk Hydrogen
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