P184
P185
Get more out of your data: a new approach to agglomeration and aggregation studies using nanoparticle impact experimentsLaser activation voltammetry: selective removal of reduced forms of methyl viologen deposited on glassy carbon and boron-doped diamond electrodesOxidation of anthracene on platinum macro- and micro-electrodes: Sonoelectrochemical, cryoelectrochemical and sonocryoelectrochemical studies.Laser-activated voltammetry: measurement of the diffusion coefficients of electropassivating species. Application to pyrrole and phenol in aqueous solutionComputational electrochemistry: finite element simulation of a disk electrode with ultrasonic acoustic streaming.Single graphene nanoplatelets: capacitance, potential of zero charge and diffusion coefficientSonoelectroanalysis--an overview.Advances in the voltammetric analysis of small biologically relevant compounds.Metal nanoparticles and related materials supported on carbon nanotubes: methods and applications.Surface acoustic cavitation understood via nanosecond electrochemistry. Part III: Shear stress in ultrasonic cleaning.Anodic stripping voltammetry of silver nanoparticles: aggregation leads to incomplete stripping.The electrochemistry of quinizarin revealed through its mediated reduction of oxygen.'Nano-impacts': An Electrochemical Technique for Nanoparticle Sizing in Optically Opaque SolutionsUltrasound: promoting electroanalysis in difficult real world media.Non-haloaluminate room-temperature ionic liquids in electrochemistry--a review.Voltammetric Study of the Influence of Various Phosphate Anions on Silver Nanoparticle Oxidation.Surface Modification of Boron-Doped Diamond with Microcrystalline Copper Phthalocyanine: Oxygen Reduction CatalysisEdge plane pyrolytic graphite electrodes in electroanalysis: an overview.The use of nanoparticles in electroanalysis: a review.New electrodes for old: from carbon nanotubes to edge plane pyrolytic graphite.Single Nanotube Voltammetry: Current Fluctuations Are Due to Physical Motion of the Nanotube.Detection and determination of nitrate and nitrite: a review.Analytical determination of homocysteine: a review.Analytical methods for inorganic arsenic in water: a review.Improving Formate and Methanol Fuels: Catalytic Activity of Single Pd Coated Carbon Nanotubes.The physicochemical aspects of DNA sensing using electrochemical methods.Microelectrode arrays for electrochemistry: approaches to fabrication.Metallic nanoparticles deposited on carbon microspheres: novel materials for combinatorial electrochemistry and electroanalysis.The use of nanoparticles in electroanalysis: an updated review.Voltammetry as a probe of displacement.Mass transport to micro- and nanoelectrodes and their arrays: a review.Generator-collector double electrode systems: a review.Electrochemical determination of glutathione: a review.Electrode-particle impacts: a users guide.Convective heat transfer in a measurement cell for scanning electrochemical microscopy.When does near-wall hindered diffusion influence mass transport towards targets?Channel Flow Cell Studies of the Inhibiting Action of Gypsum on the Dissolution Kinetics of Calcite: A Laboratory Approach with Implications for Field Monitoring.Hydrogen Bonding to Hexafluoroisopropanol Controls the Oxidative Strength of Hypervalent Iodine Reagents.A kinetic study of the reaction between N,N-dimethyl-p-toluidine and its electrogenerated radical cation in a room temperature ionic liquid.In situ electrochemical ESR and voltammetric studies on the anodic oxidation of para-haloanilines in acetonitrile.
P50
Q30760027-2506BE71-1113-4DE3-8B65-2821E7D5E311Q30880833-E0890A03-D658-4CAB-8869-05833C572C89Q31019184-814CCADF-158E-4649-91E1-D5D55F767A1BQ31673345-0BF53134-BBE6-4820-A22F-EE23E21663E7Q33250792-84F10F2B-29E0-4A2E-9934-E0FBBB9E870EQ33850530-B0D3F9A4-CA99-4A3D-B698-F200CEEEDCDEQ34166631-1998DC17-2F4F-4D69-B206-4C29AA0EF85BQ34572406-6C9540BC-1018-4B1C-AEB6-F772E5C6A5F4Q34595500-3A01C8EB-C0E0-4C83-9C3C-D1358F46C742Q34982638-89522825-E662-47C2-8682-E79B54C0A64AQ35236741-64032E4F-C8AC-4619-9E75-9585A026F05EQ35647632-CCF32A06-AAAA-4258-A68D-FF00D117CB2AQ35738501-BE66AC51-2435-45BC-B54B-A326FC26B550Q35851319-ACFD4A71-CE2C-48B9-B716-D8574EE1487FQ35901325-90FEE27A-8F52-42D6-8E9A-EDA5959B58B7Q36170255-E138613C-FBC9-4123-9A97-533B685FEAFBQ36170261-C145DAA8-29D4-4411-A535-EF5CAA3D7A99Q36326873-10687001-585D-4791-B229-24E6D6086B19Q36364485-62B8909B-8B11-4EB9-AA9D-17EB253FDCD1Q36373275-48F3F377-364A-4650-AE92-CA700894E80EQ36761595-5F5F9C0A-42A8-4239-92C0-4DA13C1E2A0AQ37312355-881A7E77-DB93-4EEB-88F3-D80227DC2373Q37312411-FF568494-3CD2-41A5-9474-A1415EE8E3C8Q37312488-862A27E8-6E69-4DC3-967A-2024558D25ACQ37342203-BA2B85EA-E537-4C6C-A433-7300FF111647Q37407507-DF22EA32-7605-40E7-B5D7-C5B3865A8F7CQ37430089-C3F2BFC9-84B8-4093-8406-523071A25FBEQ37479617-CBE05404-B89A-4A70-A420-8BC40D2AC889Q37591965-9676E458-2E84-487C-942A-6EFFD4DD768FQ37748515-E82678AE-C49F-46A5-908E-7C7526EE7011Q37965114-D9EB4235-F0D1-4CEC-B8F8-4E995BF35080Q37978527-FB057BAA-B82E-4E78-BB85-665EFAA93C82Q37998472-B1C1EDF3-C7DC-419E-87E5-7721459DFF73Q39130841-DAF86AB1-C463-4EAB-82E4-A2CE964CD775Q39272116-E7C6A2B8-DC3F-450A-ACDD-4D513F0EC944Q39316084-31AAF1C3-126C-45C0-BE86-B079658492A5Q39570342-EB8BCBB0-6AA1-4E39-91C7-59AD7159EEA4Q39630035-3FE58561-2DBF-4E90-ACD9-1C10CF1BAADCQ39744939-1630886C-5160-409A-B86F-5F2A2BEFCED5Q39762800-D225067B-BC4F-4A1E-B998-80F184C51993
P50
description
British chemist
@en
British chemist
@en-ca
British chemist
@en-gb
Brits physisch chemicus
@nl
Suurbritannia keemik
@et
britischer Chemiker
@de
chimist britanic
@ro
chimiste britannique
@fr
fisicoquímicu británicu
@ast
kimist britanik
@sq
name
R. G. Compton
@ca
R. G. Compton
@fr
Richard Compton
@de
Richard G Compton
@ast
Richard G. Compton
@en
Richard G. Compton
@es
Richard G. Compton
@it
Richard G. Compton
@nl
Richard G. Compton
@sl
ريتشارد جي. كومبتون
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type
label
R. G. Compton
@ca
R. G. Compton
@fr
Richard Compton
@de
Richard G Compton
@ast
Richard G. Compton
@en
Richard G. Compton
@es
Richard G. Compton
@it
Richard G. Compton
@nl
Richard G. Compton
@sl
ريتشارد جي. كومبتون
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altLabel
Compton R
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Compton R. G.
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Compton R.
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Compton RG
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Compton
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R Compton
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R G Compton
@en
R. Compton
@en
R. G. Compton
@en
Richard Compton
@en
prefLabel
R. G. Compton
@ca
R. G. Compton
@fr
Richard Compton
@de
Richard G Compton
@ast
Richard G. Compton
@en
Richard G. Compton
@es
Richard G. Compton
@it
Richard G. Compton
@nl
Richard G. Compton
@sl
ريتشارد جي. كومبتون
@ar