PhD, PGCAP, BSc (Hons), FHEA, MRSC
Completed:
PhD students:
Anthony Slate (DoS)
Aamar Khan (DoS: Prof. C. Banks)
Alejandro Ferrari (DoS: Prof. C. Banks)
Mandeep Kaur (DoS: Dr. A. Jones)
MSc students:
Wasiq Jahangir (DoS: Prof. C. Banks)
Inayah Ali (DoS: Dr. O. Sutcliffe)
Electrochemistry, Electron transfer, Sensors, Nanotechnology, Fundamental characterisation of 2D materials (including graphene), Energy generation and storage.
Research Centre: Surface Engineering & Advanced Materials Research Group / Engineering & Materials Research Centre
Publication List via ResearcherID: http://www.researcherid.com/rid/B-1949-2013
Book: "The Handbook of Graphene Electrochemistry", D. A. C. Brownson, C. E. Banks, 2014, Springer-Verlag Ltd., London, ISBN: 978-1-4471-6427-2.
A. Garcia-Miranda Ferrari, DAC. Brownson, AS. Abo Dena, CW. Foster, SJ. Rowley-Neale, et al. CE. Banks. (2019). Tailoring the electrochemical properties of 2D-hBN via physical linear defects: physicochemical, computational and electrochemical characterisation. Nanoscale Advances. 2(1), pp.264-273.
SJ. Rowley-Neale, CW. Foster, GC. Smith, DAC. Brownson, CE. Banks (2017). Mass-producible 2D-MoSe 2 bulk modified screen-printed electrodes provide significant electrocatalytic performances towards the hydrogen evolution reaction. Sustainable Energy & Fuels. 1(1), pp.74-83.
AF. Khan, DAC. Brownson, EP. Randviir, GC. Smith, CE. Banks (2016). 2D Hexagonal Boron Nitride (2D-hBN) Explored for the Electrochemical Sensing of Dopamine. Analytical Chemistry. 88(19), pp.9729-9737.
DAC. Brownson, SA. Varey, F. Hussain, SJ. Haigh, CE. Banks (2014). Electrochemical properties of CVD grown pristine graphene: monolayer- vs. quasi-graphene. Nanoscale. 6(3), pp.1607-1621.
DAC. Brownson, LCS. Figueiredo-Filho, X. Ji, M. Gomez-Mingot, J. Iniesta, et al. O. Fatibello-Filho, DK. Kampouris, CE. Banks. (2013). Freestanding three-dimensional graphene foam gives rise to beneficial electrochemical signatures within non-aqueous media. JOURNAL OF MATERIALS CHEMISTRY A. 1(19), pp.5962-5972.
DAC. Brownson, DK. Kampouris, CE. Banks (2012). Graphene electrochemistry: fundamental concepts through to prominent applications. Chem Soc Rev. 41(21), pp.6944-6976.
DAC. Brownson, LJ. Munro, DK. Kampouris, CE. Banks (2011). Electrochemistry of graphene: Not such a beneficial electrode material?. RSC Advances. 1(6), pp.978-988.
DAC. Brownson, DK. Kampouris, CE. Banks (2011). An overview of graphene in energy production and storage applications. Journal of Power Sources. 196(11), pp.4873-4885.
DAC. Brownson, CE. Banks (2010). Graphene electrochemistry: an overview of potential applications. Analyst. 135(11), pp.2768-2778.
DAC. Brownson, CE. Banks (2014). The Handbook of Graphene Electrochemistry. Springer London.
ML. Chelaghmia, H. Fisli, M. Nacef, DAC. Brownson, AM. Affoune, et al. H. Satha, CE. Banks. (2021). Disposable non-enzymatic electrochemical glucose sensors based on screen-printed graphite macroelectrodes modified via a facile methodology with Ni, Cu, and Ni/Cu hydroxides are shown to accurately determine glucose in real human serum blood samples. Analytical Methods. 13(25), pp.2812-2822.
HS. AlSalem, ST. Al-Goul, A. Garcia-Miranda Ferrari, DAC. Brownson, L. Velarde, et al. SPK. Koehler. (2021). Correction: Imaging the reactivity and width of graphene's boundary region. Chemical Communications. 57(34), pp.4198-4198.
H. Fuchigami, MK. Bal, DAC. Brownson, CE. Banks, AM. Jones (2020). Voltammetric behaviour of drug molecules as a predictor of metabolic liabilities. Scientia Pharmaceutica. 88(4), pp.1-15.
DAC. Brownson, A. Garcia-Miranda Ferrari, S. Ghosh, M. Kamruddin, J. Iniesta, et al. CE. Banks. (2020). Electrochemical properties of vertically aligned graphenes: tailoring heterogeneous electron transfer through manipulation of the carbon microstructure. Nanoscale Advances. 2(11), pp.5319-5328.
A. Garcia-Miranda Ferrari, HM. Elbardisy, V. Silva, TS. Belal, W. Talaat, et al. HG. Daabees, CE. Banks, DAC. Brownson. (2020). The influence of lateral flake size in graphene/graphite paste electrodes: an electroanalytical investigation. Analytical Methods. 12(16), pp.2133-2142.
SJ. Rowley-Neale, DAC. Brownson, G. Smith, CE. Banks (2020). Graphene Oxide Bulk-Modified Screen-Printed Electrodes Provide Beneficial Electroanalytical Sensing Capabilities. Biosensors. 10(3), pp.27-27.
A. Garcia-Miranda Ferrari, DAC. Brownson, AS. Abo Dena, CW. Foster, SJ. Rowley-Neale, et al. CE. Banks. (2019). Tailoring the electrochemical properties of 2D-hBN via physical linear defects: physicochemical, computational and electrochemical characterisation. Nanoscale Advances. 2(1), pp.264-273.
A. Garcia-Miranda Ferrari, DAC. Brownson, CE. Banks (2019). Investigating the Integrity of Graphene towards the Electrochemical Oxygen Evolution Reaction. ChemElectroChem. 6(21), pp.5446-5453.
DAC. Brownson, GC. Smith, CE. Banks (2017). Graphene oxide electrochemistry: The electrochemistry of graphene oxide modified electrodes reveals coverage dependent beneficial electrocatalysis. Royal Society Open Science. 4(11),
SJ. Rowley-Neale, CW. Foster, GC. Smith, DAC. Brownson, CE. Banks (2017). Mass-producible 2D-MoSe 2 bulk modified screen-printed electrodes provide significant electrocatalytic performances towards the hydrogen evolution reaction. Sustainable Energy & Fuels. 1(1), pp.74-83.
AF. Khan, EP. Randviir, DAC. Brownson, X. Ji, GC. Smith, et al. CE. Banks. (2017). 2D Hexagonal Boron Nitride (2D-hBN) Explored as a Potential Electrocatalyst for the Oxygen Reduction Reaction. Electroanalysis. 29(2), pp.622-634.
AF. Khan, DAC. Brownson, EP. Randviir, GC. Smith, CE. Banks (2016). 2D Hexagonal Boron Nitride (2D-hBN) Explored for the Electrochemical Sensing of Dopamine. Analytical Chemistry. 88(19), pp.9729-9737.
LCS. Figueiredo‐Filho, DAC. Brownson, O. Fatibello‐Filho, CE. Banks (2014). Electroanalytical Performance of a Freestanding Three‐Dimensional Graphene Foam Electrode. Electroanalysis. 26(1), pp.93-102.
DAC. Brownson, SA. Varey, F. Hussain, SJ. Haigh, CE. Banks (2014). Electrochemical properties of CVD grown pristine graphene: monolayer- vs. quasi-graphene. Nanoscale. 6(3), pp.1607-1621.
LCS. Figueiredo-Filho, DAC. Brownson, M. Gómez-Mingot, J. Iniesta, O. Fatibello-Filho, et al. CE. Banks. (2013). Exploring the electrochemical performance of graphitic paste electrodes: graphene vs. graphite. Analyst. 138(21), pp.6354-6364.
LCS. Figueiredo-Filho, DAC. Brownson, O. Fatibello-Filho, CE. Banks (2013). Exploring the origins of the apparent "electrocatalytic" oxidation of kojic acid at graphene modified electrodes. Analyst. 138(16), pp.4436-4442.
DAC. Brownson, LCS. Figueiredo-Filho, X. Ji, M. Gomez-Mingot, J. Iniesta, et al. O. Fatibello-Filho, DK. Kampouris, CE. Banks. (2013). Freestanding three-dimensional graphene foam gives rise to beneficial electrochemical signatures within non-aqueous media. JOURNAL OF MATERIALS CHEMISTRY A. 1(19), pp.5962-5972.
DAC. Brownson, DK. Kampouris, CE. Banks (2012). Graphene electrochemistry: fundamental concepts through to prominent applications. Chem Soc Rev. 41(21), pp.6944-6976.
EP. Randviir, DAC. Brownson, M. Gómez-Mingot, DK. Kampouris, J. Iniesta, et al. CE. Banks. (2012). Electrochemistry of Q-graphene. Nanoscale. 4(20), pp.6470-6480.
DAC. Brownson, CE. Banks (2012). The electrochemistry of CVD graphene: progress and prospects. Phys Chem Chem Phys. 14(23), pp.8264-8281.
DAC. Brownson, CW. Foster, CE. Banks (2012). The electrochemical performance of graphene modified electrodes: an analytical perspective. Analyst. 137(8), pp.1815-1823.
BAJ. Larkin, M. El-Sayed, DAC. Brownson, CE. Banks (2012). Crime scene investigation III: Exploring the effects of drugs of abuse and neurotransmitters on Bloodstain Pattern Analysis. Analytical Methods. 4(3), pp.721-729.
DAC. Brownson, RV. Gorbachev, SJ. Haigh, CE. Banks (2012). CVD graphene vs. highly ordered pyrolytic graphite for use in electroanalytical sensing. Analyst. 137(4), pp.833-839.
DAC. Brownson, CE. Banks (2012). Fabricating graphene supercapacitors: highlighting the impact of surfactants and moieties. Chem Commun (Camb). 48(10), pp.1425-1427.
DAC. Brownson, AC. Lacombe, M. Gómez-Mingot, CE. Banks (2012). Graphene oxide gives rise to unique and intriguing voltammetry. RSC Advances. 2(2), pp.665-668.
DAC. Brownson, AC. Lacombe, DK. Kampouris, CE. Banks (2012). Graphene electroanalysis: inhibitory effects in the stripping voltammetry of cadmium with surfactant free graphene. Analyst. 137(2), pp.420-423.
DAC. Brownson, CE. Banks (2012). Limitations of CVD graphene when utilised towards the sensing of heavy metals. RSC Advances. 2(12), pp.5385-5385.
DAC. Brownson, M. Gómez-Mingot, CE. Banks (2011). CVD graphene electrochemistry: biologically relevant molecules. Phys Chem Chem Phys. 13(45), pp.20284-20288.
DAC. Brownson, LJ. Munro, DK. Kampouris, CE. Banks (2011). Electrochemistry of graphene: Not such a beneficial electrode material?. RSC Advances. 1(6), pp.978-988.
DAC. Brownson, CE. Banks (2011). CVD graphene electrochemistry: the role of graphitic islands. Phys Chem Chem Phys. 13(35), pp.15825-15828.
M. El-Sayed, DAC. Brownson, CE. Banks (2011). Crime scene investigation II: The effect of warfarin on bloodstain pattern Analysis. Analytical Methods. 3(7), pp.1521-1524.
DAC. Brownson, DK. Kampouris, CE. Banks (2011). An overview of graphene in energy production and storage applications. Journal of Power Sources. 196(11), pp.4873-4885.
DAC. Brownson, CE. Banks (2011). Graphene electrochemistry: fabricating amperometric biosensors. Analyst. 136(10), pp.2084-2089.
DAC. Brownson, CE. Banks (2011). Graphene electrochemistry: Surfactants inherent to graphene inhibit metal analysis. Electrochemistry Communications. 13(2), pp.111-113.
DAC. Brownson, JP. Metters, DK. Kampouris, CE. Banks (2011). Graphene electrochemistry: Surfactants inherent to graphene can dramatically effect electrochemical processes. Electroanalysis. 23(4), pp.894-899.
DAC. Brownson, CE. Banks (2010). Crime scene investigation: The effect of drug contaminated bloodstains on bloodstain pattern analysis. Analytical Methods. 2(12), pp.1885-1889.
DAC. Brownson, CE. Banks (2010). Graphene electrochemistry: an overview of potential applications. Analyst. 135(11), pp.2768-2778.
AS. Aricò, V. Baglio, V. Antonucci (2013). Nanomaterials for Fuel Cell Technologies. J. Garcia-Martinez. In: Nanotechnology for the Energy Challenge – 2nd Edition. Wiley, pp.171-211.
DAC. Brownson, CE. Banks (2012). Electrochemical performance of graphene. In: Graphene: Properties, Synthesis and Applications. Nova Science Publishers, Inc., pp.151-191.
Session Chair on "Carbon" at "STFC batteries annual meeting" conference, July 2016.
Journal Review Responsibilities: ACS Applied Nano Materials; ACS Applied Electronic Materials; Analytical Methods, RSC; Australian Journal of Chemistry; Biosensors; Diamond & Related Materials; Electroanalysis; Electrochimica Acta; Journal of the Electrochemical Society; Nanomaterials; New Journal of Chemistry, RSC; Sensors & Actuators: B. Chemical; Thin Solid Films.
Ramsay Memorial Fellowship (2015-2017).
Ronald Belcher Award 2013 (RSC). Awarded by the RSC in June 2013 for “achievements towards the fundamental understanding of graphene as an electrode material and for contributions to the implications of this knowledge for the evolution of improved electroanalytical sensors.”
Additional Honours/Awards: Successfully placed on a ‘Researcher Links Workshop’ 2015 (Newton/British Council); Metrohm Award, travel grant (2011); Leverhulme Travel Bursar (2011); and RSC Travel Bursar, North West Division (2011).
Editorial Board Member (2017-Present) Chemosensors, ISSN 2227-9040.
FHEA, MRSC, ISE, SCI.