Neil V. Rees

7.1k citations

140 papers · 6.3k indexed · 1 hit paper · h-index 42

Electrochemistry top 0.05%
- Electrochemical Analysis and Applications 100
Bioengineering top 0.1%
- Analytical Chemistry and Sensors 34
Renewable Energy, Sustainability and the Environment top 1%
- Electrocatalysts for Energy Conversion 40
Catalysis top 2%
- Ionic liquids properties and applications 10
Polymers and Plastics top 1%
- Conducting polymers and applications 20
Electrical and Electronic Engineering
- Electrochemical sensors and biosensors 33
- Molecular Junctions and Nanostructures 19
- Fuel Cells and Related Materials 13

Co-authors: Richard G. Compton Yi‐Ge Zhou N.A. Al-Mufachi Edmund J. F. Dickinson Juan G. Limon‐Petersen Daniel Escalera‐López Barry A. Coles Martin C. Henstridge
Cited by: Electrochemistry Bioengineering Renewable Energy, Sustainability and the Environment
Journals: Journal of Electroanalytical Chemistry (24 papers)The Journal of Physical Chemistry C (15 papers)Chemical Physics Letters (8 papers)
Partner nations: United Kingdom Belgium Spain

In The Last Decade

Neil V. Rees

139 papers receiving 6.2k citations

Hit Papers

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Peers

Countries citing papers authored by Neil V. Rees

Since Specialization

Citations

This map shows the geographic impact of Neil V. Rees's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Neil V. Rees with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Neil V. Rees more than expected).

Fields of papers citing papers by Neil V. Rees

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Neil V. Rees. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Neil V. Rees. The network helps show where Neil V. Rees may publish in the future.

Co-authorship network

The 25 scholars most cited alongside Neil V. Rees, linked wherever they have co-authored with each other. Click a name or a connecting line to browse the papers they share.

Border = papers with Neil V. Rees Line = papers co-authored together Neil V. Rees links everyone, so they are left out of the graph.

All Works

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20 of 20 papers shown

#	Work
1	Electrochemical recovery of ruthenium via carbon black nano-impacts Electrochimica Acta ·V.I. Denga,Wei-Hsiang Lin and Charlotte Wang,Mario Albreto de la,Neil V. Rees	2024	1
2	MoS2 and WS2 nanocone arrays: Impact of surface topography on the hydrogen evolution electrocatalytic activity and mass transport Applied Materials Today ·Daniel Escalera‐López,Sevcan Aygün,Mark A. Isaacs,Karen Wilson,Richard E. Palmer,Neil V. Rees	2018	37
3	Electrochemical sulfidation of WS 2 nanoarrays: Strong dependence of hydrogen evolution activity on transition metal sulfide surface composition Electrochemistry Communications ·Daniel Escalera‐López,Sevcan Aygün,Mark A. Isaacs,Karen Wilson,Richard E. Palmer,Neil V. Rees	2017	20
4	Biomanufacture of nano-Pd(0) by Escherichia coli and electrochemical activity of bio-Pd(0) made at the expense of H2 and formate as electron donors Biotechnology Letters ·J.M. Courtney,K. Deplanche,Neil V. Rees,Lynne E. Macaskie	2016	13
5	Nanoparticle catalysts for proton exchange membrane fuel cells: can surfactant effects be beneficial for electrocatalysis? Physical Chemistry Chemical Physics ·Diego Montañez,Jon A. Preece,Neil V. Rees,Sarah L. Horswell	2014	30
6	Direct electrochemical detection and sizing of silver nanoparticles in seawater media Nanoscale ·Emma J. E. Stuart,Neil V. Rees,Jay T. Cullen,Richard G. Compton	2012	88
7	Nanoparticle–electrode impacts: the oxidation of copper nanoparticles has slow kinetics Physical Chemistry Chemical Physics ·Baptiste Haddou,Neil V. Rees,Richard G. Compton	2012	96
8	The electrochemical detection of tagged nanoparticles via particle-electrode collisions: nanoelectroanalysis beyond immobilisation Chemical Communications ·Yi‐Ge Zhou,Neil V. Rees,Richard G. Compton	2012	63
9	The Aggregation of Silver Nanoparticles in Aqueous Solution Investigated via Anodic Particle Coulometry ChemPhysChem ·Neil V. Rees,Yi‐Ge Zhou,Richard G. Compton	2011	85
10	Nanoparticle–Electrode Collision Processes: The Underpotential deposition of Thallium on Silver Nanoparticles in Aqueous Solution ChemPhysChem ·Yi‐Ge Zhou,Neil V. Rees,Richard G. Compton	2011	59
11	Towards the electrochemical quantification of the strength of garlic The Analyst ·Benjamin Martindale,Leigh Aldous,Neil V. Rees,Richard G. Compton	2010	10
12	Voltammetry as a probe of displacement Chemical Communications ·Neil V. Rees,Richard G. Compton	2010	7
13	A Photoelectrochemical Method for Determining the Kinematics of Moving Particles Using an Array of Individually Addressable Electrodes Chemistry - An Asian Journal ·Neil V. Rees,Richard G. Compton	2009	4
14	A Method for the Positioning and Tracking of Small Moving Particles Angewandte Chemie International Edition ·Neil V. Rees,Sinéad M. Matthews,Kamran Yunus,Adrian C. Fisher,Richard G. Compton	2009	16
15	A photoelectrochemical method for tracking the motion of Daphnia magna in water The Analyst ·Neil V. Rees,Richard G. Compton	2009	9
16	Investigating the concept of diffusional independence. Potential step transients at nano- and micro-electrode arrays: theory and experiment The Analyst ·Denis Menshykau,Xing‐Jiu Huang,Neil V. Rees,F. Javier del Campo,Francesc Xavier Muñoz,Richard G. Compton	2008	29
17	Voltammetric sizing of particles: chronoamperometry of impact events in acoustically agitated particulate suspensions The Analyst ·Neil V. Rees,Richard G. Compton	2007	12
18	Selective activation of glycosyl donors utilising electrochemical techniques: a study of the thermodynamic oxidation potentials of a range of chalcoglycosides Organic & Biomolecular Chemistry ·Robert R. France,Neil V. Rees,Jay D. Wadhawan,Antony J. Fairbanks,Richard G. Compton	2004	33
19	Selective electrochemical glycosylation by reactivity tuning1 Organic & Biomolecular Chemistry ·Robert R. France,Richard G. Compton,Benjamin G. Davis,Antony J. Fairbanks,Neil V. Rees,Jay D. Wadhawan	2004	59
20	Voltammetry Under High Mass Transport Conditions. The High Speed Channel Electrode and Heterogeneous Kinetics The Journal of Physical Chemistry ·Neil V. Rees,John A. Alden,Robert A. W. Dryfe,Barry A. Coles,Richard G. Compton	1995	48

About Neil V. Rees

Neil V. Rees is a scholar working on Electrochemistry, Bioengineering, Renewable Energy, Sustainability and the Environment, Catalysis and Electrical and Electronic Engineering, having authored 140 papers that have together received 6.3k indexed citations. Recurring topics across this work include Electrochemical Analysis and Applications (100 papers), Electrocatalysts for Energy Conversion (40 papers), Analytical Chemistry and Sensors (34 papers), Electrochemical sensors and biosensors (33 papers), Conducting polymers and applications (20 papers), Molecular Junctions and Nanostructures (19 papers), Fuel Cells and Related Materials (13 papers) and Ionic liquids properties and applications (10 papers). The work is most often cited by research in Electrochemistry (3.7k citations), Bioengineering (1.3k citations), Renewable Energy, Sustainability and the Environment (1.8k citations), Catalysis (680 citations) and Polymers and Plastics (1.0k citations). Neil V. Rees has collaborated with scholars based in United Kingdom, Belgium and Spain. Frequent co-authors include Richard G. Compton, Yi‐Ge Zhou, N.A. Al-Mufachi, Edmund J. F. Dickinson, Juan G. Limon‐Petersen, Daniel Escalera‐López, Barry A. Coles, Martin C. Henstridge, Barbara Kozub and Emma J. E. Stuart. Their work appears in journals such as Journal of Electroanalytical Chemistry, The Journal of Physical Chemistry C, Chemical Physics Letters, Electroanalysis and Physical Chemistry Chemical Physics.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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