craigbanksresearch.com
Prior to 2007
Publications

  


Researcher ID:
http://www.researcherid.com/rid/A-8889-2013

@ACT_MMU

2016

[1] Direct electrochemistry of hemoglobin and biosensing for hydrogen peroxide using a film containing silver nanoparticles nad poly(amidoamine) dendrimer: Marina Baccarin, Bruno C. Janegitz, Rodrigo Bert, Fernando Campanha Vicentini, Craig E. Banks, Orlando Fatibello-Filho and Valtencir Zucolootto, Materials Science and Engineering: C, 2016, 58, 97

[2] Forensic electrochemistry: simultaneous voltammetric detection of MDMA and its fatal counterpart "Dr Death" (PMA), Loanda R. Cumba, Jamie P. Smith, Khaled Y. Zuway, Oliver B. Sutcliffe, Devaney R. do Carmo and Craig E. Banks, Analytical Methds, 2016, 8, 142

[3] Boron-doped diamond electrodes explored for the electroanalytical detection of 7-methylguanine and applied for its sensing within uring samples, Ignacio Sanjuan, Ariadna Brotons, Naiara Hernandez-Ibanez, Christopher W. Foster, Craig E. Banks and Jesus Iniesta, Electrochimica Acta, 2016,  

[4] Electrochemical lactate biozensor based upon chitosan/carbon nanotubes modified screen-printed graphite electrodes for the determination of lactate in emryonic cell cultures, Naiara Hernandez-Ibanez, Leticia Garcia-Cruz, Vicente Montiel, Christopher W. Foster, Craig E. Banks and Jesus Iniesta, Biosensors and Bioelectronics, 2016, 77, 1168

[5] Utilising Copper Screen-Printed Electrodes (CuSPE) for the Electroanalytical Sensing of Sulfide, Bhawana Thakura,, Elena Bernalte, Jamie P. Smith, Christopher W. Foster, Patricia E. Linton, Shilpa N. Sawant and Craig E. Banks, The Analyst, 2016, 141, 1233

[6] High temperature low vacuum synthesis of a freestanding three-dimensional graphene nano-ribbon foam electrode, Dale A. C. Brownson, Luiz C. S. Figueiredo-Filho, Bill L. Riehl, Bonnie D. Riehl,  Maria Gómez-Mingot, Jesús Iniesta, Orlando Fatibello-Filho and Craig E. Banks, Journal Materials Chemistry A, 2016, 4, 2617

[7] Can the mechanical activation (polishing) of screen-printed electrodes enhance their electroanalytical response?  Loanda R. Cumba, Christopher W. Foster, Dale A. C. Brownson, Jamie P. Smith, Jesus Iniesta,   Bhawana Thakur, Devaney R. do Carmo and Craig E. Banks, The Analyst, 2016, 141, 2791

[8] Self-assembly of porous copper oxide hierarchical nanostructures for selective determinations of glucose and ascorbic acid, Bahaa G. Mahmoud, Mohamed Khairy, Farouk A. Rashwan, Christopher W. Foster and Craig E. Banks, RSC Adv., 2016,6, 14474

[9] Pencil it in: pencil drawn electrochemical sensing platforms, Christopher W. Foster, Dale A. C. Brownson, Ana P. Ruas de Souza, Elena Bernalte, Jesus Iniesta, Mauro Bertotti and Craig E. Banks, Analyst, 2016

[10] Electroanalytical sensing of the antimicrobial drug linezolid utilising an electrochemical sensing platform based upon multiwalled carbon nanotubes/ bromocresol green modified carbon paste electrode, Mona A. Mohamed, Nada S. Abdelwahab and Craig E. Banks, Analytical Methods, 2016. 8, 4345

[11] The Mediatorless Electroanalytical Sensing of Sulfide Utilizing Unmodified Graphitic Electrode Materials
by Bhawana Thakur, Elena Bernalte, Jamie P. Smith, Patricia E. Linton, Shilpa N. Sawant, Craig. E. Banks and Christopher W. Foster,C 2016, 2(2), 14;
doi:10.3390/c2020014

[12] Introducing Thermal Wave Transport Analysis (TWTA): A Thermal Technique for Dopamine Detection by Screen-Printed Electrodes Functionalized with Molecularly Imprinted Polymer (MIP) Particles, Marloes M. Peeters, Bart van Grinsven, Christopher W. Foster, Thomas J. Cleij and Craig E. Banks, Molecules, 2016, 21,  552

[13] Organic-resistant screen-printed graphitic electrodes: Application to on-site monitoring of liquid fuels,  Eduardo S. Almeida, Luiz A.J. Silva, Raquel M.F. Sousa, Eduardo M. Richter, Christopher W. Foster, Craig E. Banks, Rodrigo A.A. Munoz,  Analytica Chimica Acta, 2016, 934, 1

[14] 2D Hexagonal Boron Nitride (2D-hBN) Explored for the Electrochemical Sensing of Dopamine, Aamar F. Khan, Dale A.C. Brownson, Edward P. Randviir, Graham C. Smith and Craig E. Banks, Analytical Chemistry, 2016, 88, 9729

[15] High Yeild Synthesis of Hydroxyappatite (HAP) and Palladium Doped HAP via a Wet Chemical Synthetic Route, Joanna Kamieniak, Elena Bernalte, Christopher W. Foster, Aidan M. Doyle, Peter J. Kelly and Craig E. Banks, Catalysts, 2016, 6, 119

[16] Exploring the applicability of equine blood to bloodstain pattern analysis, Bethany A.J. Larkin and Craig E. Banks
, Medicine Science and the Law, 2016, 56, 190


[17] Pencil drawn paper based supercapacitors, Michael P. Down, Christopher W. Foster Xiaobo Ji and Craig E. Banks
, RSC Advances 2016, 6, 81130

[18] 2D molybdenum disulpide (2D-MoS2) modified electrodes explored towards the oxygen reduction reaction, Samuel J Rowley-Neale, Jamie M. Fearn, Dale A.C. Brownson, Graham C. Smith, Xiaobo Ji andCraig E. Banks, Nanoscale, 2016, 8, 14767

[19] Defining the origins of electron transfer at screen-printed graphene-like and graphite electrodes: MoO2 nanowire fabrication on edge plane sites reveals electrochemcial insights, Samuel J Rowley-Neale,  Dale A.C. Brownson and  and Craig E. Banks
, Nanoscale, 2016, 8, 15241
 
 
 
 

Book Chapters:

Carbon nanomaterials in electrochemical detection (Chapter 7), Jonathan P. Metters and Craig E. Banks, in: Electrochemical Strategies in Detection Science, 2016, 229-278

Specialist Periodical Report Electrochemistry: volume 13, 2016, 13, P005, Editors: Craig Banks, Roger Mortimer and Steven McIntosh


 

2015

[1] The latest development for cyanide and HCN quantification; Edward P. Randviir and Craig E. Banks, TrAC Trends in Analytical Chemistry, 2015, 64, 75

[2] Multi-dimensional hydroxyapatite (HAp) nanocluster architectures fabrication via nafion-assisted biomeralization;  Ying Zhang, Kaiyang Li, Qing Zhang, Wei Liu, Yong Liu and Craig E. Banks, New. J. Chem., 2015, 39, 750

[3] Mechanistic investigation of ion migration in Na3V2(PO4)2F3 hybrid-ion batteries;  Weixin Song, Xiaobo Ji, Jun Chen, Zhengping Wu, Yirong Zhu, Kefen Ye, Hongshuai Hou, Mingjun Jing and Craig E. Banks, Phys. Chem. Chem. Phys. 2015, 17, 159

[4] Exploring the electrical wiring of screen-printed configurations utalised in electroanalysis;   Flavia E. Galdino, Christopher W. Foster, Juliano A. Bonacin and Craig E. Banks, Analytical Methods, 2015, 7, 1208

[5] Quantification of corrosion inhibitors used in the water industry for steam condenstate treatment: the indirect electroanalytical sensing of morpholine and cyclohexylamine;   Athanasios V. Kolliopoulos, Jonathan P. Metters and Craig E. Banks, Environ. Sci. Water Res. Technol, 2015, 1, 40

[6] Imparting improvements in electrochemical sensors: evaluation of different carbon blacks that give rise to significant improvement in the performance of electroanalytical sensing platforms;   Fernando Campanha Vicentini, Amanda E. Ravanini, Luiz C.S. Figueiredo-Filho, Jesus Iniesta, Craig E. Banks and Orlando Fatibello-Filho, Electrochemica Acta, 2015, 157, 125

[7] A new approach for the improved interpretation of capacitance measurements for materials;  Dimitrios K. Kampouris, Xiaobo Ji, Edward P. Randviir and Craig E. Banks, RSC Adv. 2015, 5, 12782

[8] Electroanalytical detection of pindolol: comparison of unmodified and reduced graphene oxide modified screen-printed graphite electrodes;   Loanda R. Cumba, Jamie P. Smith, Dale A.C. Brownson, Jesus Iniesta, Jonathan P. Metters, Devaney R. do Carmo and Craig E. Banks, Analyst, 2015

[9] Designing and application of screen-printed bulk modified electrodes using nanostructured composote of anthraquinone moiety/cysteamine functionalized-gold nanoparticles for the detection of dissolved oxygen; Ida Tiwari, Monali Singh, Mandakini Gupta, Jonathan Metters and Craig E. Banks, Analytical Methods, 2015

[10] Regal electrochemistry: British 5 pence coins provide useful metallic macroelectrode substrates; Fang Tan, Jamie P. Smith, Dimitrios K. Kampouris, Joanna Kamieniak and Craig E. Banks, Analyst, 2015, 140, 6477
[11] Detection and quantification of new psychoactive substances (NPSs) within the evolved “legal high” product, NRG-2, using high performance liquid chromatography-amperometric detection (HPLC-AD); Khaled Y. Zuway, Jamie P. Smith, Christopher W. Foster, Nikil Kapur, Craig E. Banks and Oliver B. Sutcliffe, Analyst, 2015, 140, 6283 

[12] Forensic electrochemistry: indirect electrochemical sensing of the components of the new psychoactive substance “Synthacaine”; Loanda R. Cumba, Athanasios V. Kolliopoulos, Jamie P. Smith, Paul D. Thompson, Peter R. Evans, Oliver B. Sutcliffe, Devaney R. do Carmo and Craig E. Banks, Analyst, 2015, 140, 5536

[13] An overview of recent developments in the analytical detection of new psychoactive substances (NPSs); Jamie P. Smith, Oliver B. Sutcliffe and Craig E. Banks,  Analyst, 2015,140, 4932

[14] Facile and controllable synthesis of hydroxyapatite/graphene hybrid materials with enhanced sensing performance towards ammonia; Qing Zhang, Yong Liu, Ying Zhang, Huixia Li, Yanni Tan, Lanlan Luo, Junhao Duan, Kaiyang Li and Craig E. Banks, Analyst, 2015,140, 5235

[15] Screen-printed back-to-back electroanalytical sensors: heavy metal ion sensing; Ana P. Ruas de Souza, Christopher W. Foster, Athanasios V. Kolliopoulos, Mauro Bertotti and Craig E. Banks, Analyst, 2015,140, 4130-4136

[16] In situ electrochemical characterisation of graphene and various carbon-based electrode materials: an internal standard approach; Dale A. C. Brownson, Peter J. Kelly and Craig E. Banks, RSC Adv., 2015,5, 37281-37286

[17] Indirect electroanalytical detection of phenols; Athanasios V. Kolliopoulos, Dimitrios K. Kampouris and Craig E. Banks, Analyst, 2015,140, 3244

[18] Design of screen-printed bulk modified electrodes using anthraquinone–cysteamine functionalized gold nanoparticles and their application to the detection of dissolved oxygen; Ida Tiwari, Monali Singh, Mandakini Gupta, Jonathan P. Metters and Craig E. Banks, Anal. Methods, 2015,7, 2020

[19] Carbon dots supported upon N-doped TiO2 nanorods applied into sodium and lithium ion batteries; Yingchang Yang, Xiaobo Ji, Mingjun Jing, Hongshuai Hou, Yirong Zhu, Laibing Fang, Xuming Yang, Qiyuan Chen and Craig E. Banks, J. Mater. Chem. A, 2015,3, 5648-5655

[20] Electrode substrate innovation for electrochemical detection in microchip electrophoresis, Edward P. Randviir and Craig E. Banks, Electrophoresis, 2015, 36, 1845

[21] Back-to-Back Screen-Printed Electroanalytical Sensors: Extending the Potential Applications of the Simplistic Design, Ana P. Ruas de Souza, Mauro Bertotti, Christopher W. Foster and Craig E. Banks, Electroanalysis

[22] Voltammetric behaviour of 7-methylguanine using screen-printed graphite electrodes: towards a guanine methylation electrochemical sensor, Ariadna Brotons, Ignacio Sanjuan, Craig E. Banks, Francisco José Vidal-Iglesias, José Solla-Gullón and Jesús Iniesta, Electroanalysis, 2015, 27, 2766

[23] Rapid and Portable Electrochemical Quantification of Phosphorus; Athanasios V. Kolliopoulos , Dimitrios K. Kampouris , and Craig E. Banks, Analytical Chemistry, 2015, 87, 4269

[24] Regal electrochemistry: sensing of the synthetic cathinone class of new psychoactive substances (NPSs); Fang Tan, Jamie P. Smith, Oliver B. Sutcliffe and Craig E. Banks, Anal. Methods, 2015, 7, 6470

[25] Exploring the effeect of specific packed cell volume upon bloodstain pattern analysis: blood drying and dry volume estimation; Bethany A.J. Larkin and Craig E. Banks, Canadian Society of Forensic Science, 2015, 48, 167

[26] Carbon quantum dots and their derivative 3D porous carbon framework for sodium-ion batteries with ultralong cycle life; Hongshuai Hou, Craig E. Banks, Mingjun Jing, Yan Zhang, Xiaobo Ji, Advanced Materials, 2015, 27, 7861

[27] 2D nanosheet molybdenum disulfide (MoS2) modified electrodes explored towards the hydrogen evolution reaction, Samule J. Rowley-Neale, Dale A.C. Brownson, Graham C. Smith, David A.G. Sawtell, Peter J. Kelly and Craig E. Banks, Nanoscale, 2015, 7, 18152

[28] Metallic modified (bismuth, antimony, tin and combinations thereof) film carbon electrodes Christopher W. Foster, Ana P. de Souza, Jonathan P. Metters, Mauro Bertotti and Craig E. Banks, Analyst, 2015, 140, 7598

[29] The latest development in the analytical sensing of methane, Joanna Kamieniak, Edward P. Randviir and Craig E. Banks, TrAC Trends in Analytical Chemistry, 2015, 73, 146

[30] An experimentalists guide to electrosynthesis: the shono oxidation,  Paulino Alfonso-Suarex, Athanasios V. Kolliopoulos, Jamie P. Smith, Craig E. Banks and Alan M. Jones, Tetrahedron Letters, 2015, 56, 6863

[31] Twittering about research: a case study of the world's first twitter poster competition,  Edward P. Randviir, Samuel M. Ilingworth, Matthew J. Baker, Matthew Cude, F1000Research , 2015, 4, 798



Guest Editorial:

Graphene and related materials in electrochemistry', Electrochimica Acta, 172, 2015; Guest Editors: Martin Pumera - Ronen Polsky -
Craig E. Banks




2014

[1] Forensic electrochemistry: the electroanalytical sensing of synthetic cathinone-derivatives and their accompanying adulterants in "legal high" products; Jamie P. Smith, Jonathan P. Metters, Craig Irving, Oliver B. Sutcliffe and Craig E. Banks Analyst 2014, 139, 389

[2] Electrochemcial properties of CVD grown pristine graphene: monolayer- vs. quasi-graphene; Dale A.C. Brownson, Sarah A. Varey, Fiazal Hussain, Sarah J. Haigh and Craig E. Banks, Nanoscale, 2014, 6, 1607

[3] The oxygen reduction reaction at graphene modified electrodes; Edward P. Randviir and Craig E. Banks, Electroanalysis, 2014, 26, 76

[4] Electroanalytical performance of a freestanding three-dimensional graphene foam electrode; Luiz C.S. Figueiredo-Filho, Dale A.C. Brownson, Orlando Fatibello-Filho and Craig E. Banks, Electroanalysis, 2014, 26, 93

[5] Na2FePO4F cathode utilized in hybrid-ion batteries: a mechanistic exploration of ion migration and diffusion capability; Weixin Song, Xiaobo Ji, Zhengping Wu, Yirong Zhu, Yinpeng Yao, Kali Huangfu, Qiyuan Chen and Craig E. Banks, J. Materials Chemistry A,  2014, 2, 2571

[6] Screen-printed graphite macroelectrodes for the direct electron transfer of cytochrome c: a deeper study of the effect of pH on the confirmational states, immobilization and peroxidase activity; Maria Gomez-Mingot, Vicente Montiel, Craig E. Banks and Jesus Iniesta, The Analyst,  2014, 139, 1442

[7] A promising Na3V2(PO4)3 cathode for use in the construction of high energy batteries; Weixin Song, Xiaobo Ji, Yinpeng Yao, Hanjun Zhu, Qiyuan Chen and Craig E. Banks, PCCP,  2014, 16, 3055

[8] Detection of creatinine: technologies for point-of-care determination of glomerular filtration; Edward P. Randviir and and Craig E. Banks, Bioanalysis (editorial),  2014, 6, 109

[9] The fabrication, characterisation and electrochemical investigation of screen-printed graphene electrodes; Edward P. Randviir, Dale A.C. Brownson, Jonathan P. Metters, Rashid O. Kadara and and Craig E. Banks, PCCP,  2014, 16, 4598

[10] Ultraflexible screen-printed electroanalytical sensing platforms; Christopher W. Foster, Jonathan P. Metters, Dimitrios K. Kampouris and Craig E. Banks, Electroanalysis,  2014,

[11] Development of a carbon nanotube paste electrode modified with zinc phosphate for captopril determination in pharmaceutical and biological samples; Bruno C. Janegitz, Luiz C.S. Figueiredo-Filho, Fernando Campanha Vicentini, Maria Fernanda M. Ribeiro, Willian T. Suarez, Orlando Fatibello-Filho, Jonathan P. Metters and Craig E. Banks, Analytical Methods, 2014, 6, 1324

[12] Exploration of ion migration mechanism and diffusion capability for Na3V2(PO4)2F3 cathode utilized in rechargeable sodium-ion batteries; Weixin Song, Xiaobo Ji, Zhengping Wu, Yinghcang Yang, Zhou Zhou, Fangqian Li, Qiyuan Chen and Craig E. Banks, Journal of Power Sources, 2014,

[13] Aqueous sodium-ion battery using a Na3V2(PO4)3 electrode; Weixin Song, Xiaobo Ji, Yirong Zhu, Hanjun Zhu, Fangqian Li, Jun Chen, Fang Lu, Yinpeng Yao and Craig E. Banks, ChemElectroChem, 2014,5, 871 ; Image from this work put onto the Frong cover of the journal

[14] Multifunctional dual Na3V2(PO4)2F2 cathode for both lithium-ion and sodium-ion batteries; Weixin Song, Xiaobo Ji, Yirong Zhu, Fangqian Li, Yinpeng Yao and Craig E. Banks, RSC Advances, 2014, 4, 11375

[15] First exploration of Na-ion migration pathways in the NASICON structure Na3V2(PO4)3; Weixin Song, Xiaobo Ji, Zhengping Wu, Yirong Zhu, Yingchang Yang, Jun Chen, Mingjun Jing, Fangqian Li and Craig E. Banks, J. Mat. A, 2014, 2, 5358

[16] Detection of theophylline utilising portable electrochemical sensors; Tiancheng Wang, Edward P. Randviir and Craig E. Banks, The Analyst, 2014, 139, 2000

[17] Screen-printed electrode-based electrochemical detector coupled with in-situ ionic-liquid-assisted dispersive liquid-liquid microextraction for determination of 2,4,6-trinitrotoluene; Elena Fernandez, Lorena Vidal, Jesus Iniesta, Jonathan P. Metters, Craig E. Banks and Antonio Canals, Analytical and Bioanalytical Chemistry, 2014, 406, 2197

[18] Electrochemical devices for monitoring biomarkers in embryo development; Maria Gomez-Mingot, Sophie Griveau, Fethi Bedioui, Craig E. Banks, Vicente Montiel and Jesus Iniesta, Electrochimica Acta, 2014, 140, 42

[19] Spinel NiCo2O4 for use as a high-performance supercapacitor electrode material: understanding its electrochemical properties;  J Power Sources, 2014, 267, 888

[20] Electrochemistry provides a point-of-care approach for the marker indicative of pseudomonas aeruginosa infection of cystic fibrosis patients;  Jonathan P. Metters, Dimitrios K. Kampouris and Craig E. Banks, Analyst, 2014, 139, 3999

[21] A decade of graphene research: production, applications and outlook; Edward P. Randviir, Dale A.C. Brownson and Craig E. Banks, Materials Today, 2014, 17, 426

[22] Fingerprinting breath: electrochemical monitoring of markers indicative of bacteria Mycobacterium tuberculosis infection;  Jonathan P. Metters, Dimitrios K. Kampouris and Craig E. Banks, Journal of the Brazilian Chemical Society, 2014, 25, 1667

[23] Green electrochemical sensing platforms; utilizing hydroyapatite derived from natural fish scales as a novel electrochemcial material for the sensitive detection of kidney injury molecule 1 (KIM-1); Ying Zhang, Wei Zhang, Qing Zhang, Kaiyang Li, Wei Liu, Yong Liu and Craig E. Banks, Analyst, 2014, 139, 5362

[24] Anthraquinone moiety/cysteamine functionalized-gold nanoparticle / chitosan based nanostructured composite for the electroanalytical detection of dissolved oxygen within aqueous media; Ida Tiwari, Mandakini Gupta, Rajiv Prakash and Craig E. Banks, Anal Methods, 2014, 6, 8793

[25] Forensic electrochemistry applied to the sensing of new psychoactive substances: electroanalytical sensing of synthetic cathinones and analytical validation in the quantification of seized street samples; Jamie P. Smith, Jonathan P. Metters, Osama I.G. Khreit, Oliver B. Sutcliffe and Craig E. Banks, Analytical Chemistry, 2014, 86, 9985

[26] Screen-printed back-to-back electroanalytical sensors ;  Jonathan P. Metters, Edward P. Randviir and Craig E. Banks, Analyst, 2014, 139, 5339

[27] Metallic impurities in graphene screen-printed electrodes can influence their electrochemical properties;  Jamie P. Smith, Christopher W. Foster, Jonathan P. Metters, Oliver B. Sutcliffe and Craig E. Banks, Electroanalysis, 2014, 26, 2429

[28] Simultaneous determination of hydrazine and phenyl hydrazine using 4'-(4-carboxyphenyl)-2,2':6',2" terpyridine diacetonitrile triphenylphosphite ruthenium(II) tetrafluoroborate complex functionalised multiwalled carbon nanotube modified electrode; Ida Tiwari, Mandakini Gupta, Preeti Sinha and Craig E. Banks, Materials Research Bulletin, 2014, 60, 166

[29] Cobalt phthalocyanine modified electrodes utilised in electroanalysis: nano-structured modified electrodes vs. bulk modified screen-printed electrodes;  Christopher W. Foster, J. Pillay, Jonathan P. Metters,  and Craig E. Banks, Sensors, 2014, 14, 21905; Invited article for the special issue: printed sensors

[30] The shono-type electroorganic oxidation of unfunctionalised amides: carbon-carbon bond formation via electrogenerated N-acyliminium ions; Alan M. Jones and Craig E. Banks, Beilstein J. Org. Chem. 2014, 10, 3056; Invited article

[31] A fluorescence-quenching platform based on biomineralized hydroxyapatite from natural seashell and applied to cancer cell detection;   Ying Zhang, Wie Liu, Craig E. Banks, Fei Liu, Mao Li, Fan Xia, Xiangliang Yang, Scientific Reports, 2014, 4, 7556


Guest Editorial:

Graphene in Analytical Science, Anal Bioanal 2014, Volume 406/27, Guest Editors: Martin Pumera - Ronen Polsky -
Craig E. Banks

 

Book Chapters:


[1] Nanosensors for chemical and biological applications, 1st edition: sensing with nanotubes, nanwires and nanoparticles.
Woodhead publishing series in electronic and optical materials; Ed: Kevin C. Honeychurch, 2014; Chapter: Nanoparticle modified electrodes for trace metal ion analysis, Jonathan P. Metters and Craig E. Banks

[2] Nanosensors for electrochemical sensing and biosensing, 1st edition; Ed: Martin Pumera, 2014; Pan Stanford Publishing.  Chapter: Nanomaterials for electrochemical sensing and biosensing, Jonathan P. Metters and Craig E. Banks

 


2013

[1]
Paper-based electroanalytical sensing platforms; Jonathan P. Metters, Said M. Houssein, Dimitrious K. Kampouris and Craig E. Banks Anal. Methods, 2013, 5, 103

[2] Inexpensive and disposable copper mini-sensor modified with bismuth for lead and cadmium determination using square-wave anodic stripping voltammetry; Luiz Carlos S. Figueiredo-Filho, Bruno C. Janegitz, Orlando Fatibelilo-Filho, Luiz Humberto Marcolino-Junior and Craig E. Banks, Anal. Methods, 2013, 5, 202

[3] The Fabrication of Novel Screen Printed Single-Walled Carbon Nanotube Electrodes: Electroanalytical Applications; Jonathan P. Metters, Maria Gomez-Mingot, Jesus Iniesta, Rashid O. Kadara, Craig E. Banks, Sensors and Actuators B: Chemical, 2013, 177, 1043

[4] Analytical Monitoring of Sodium Borohydride; Biljana Sljukic, Diogo M.F. Santos, Cesar Augusto Correia de Sequeira and Craig E Banks, Anal. Methods, 2013, 5, 829

[5] Electroanalytical sensing of selenium(IV) utilising screen printed graphite macro electrodes; Athanasios V. Kolliopoulos, Jonathan P. Metters and Craig E. Banks, Anal. Methods, 2013, 5, 851

[6] Forensic electrochemistry: sensing the molecule of murder atropine; Ouissam Ramdani, Jonathan P. Metters, Luiz Carlos S. Figueiredo-Filho, Orlando Fatibello-Filho and Craig E. Banks, Analyst, 2013, 153, 1053

[7] Recent developments of LiNixCoyMnzO2: Impact of micro/nano structures for imparting improvements in lithium batteries, Cheng-chi Pan, Craig E. Banks, Wei-xin Song, Chi-wei Wang, Qi-yuan Chen, Xiaobo Ji, Tans. Nonferrous Met. Soc. China, 2013, 23, 108

[8] Electrochemical impedance spectroscopy: an overview of bioanalytical applications, Edward P. Randviir and Craig E. Banks, Anal. Methods, 2013, 5, 1098

[9] Square-wave voltammetric determination of paraquat using a glassy carbon electrode modified with multiwalled carbon nanotubes within a dihexadecylhydrogenphosphate (DHP) film, Livia Luiaz Costa Garcia, Luiz Carlos Soares Figueiredo-Filho, Geiser Gabriel Oliveira, Orlando Fatibello-Filho and Craig E. Banks, Sens. Actuators B: Chem. 2013, 181, 306

[10] Graphene ultracapacitors: strucutural impacts, Weixin Song, Xiaobo Ji, Wentao Deng, Qiyuan Chen, Chen Shen and Craig E. Banks, PCCP, 2013, 15, 4799
, 15, 4799

[11] Screen-printed palladium electroanalytical sensors, Jonathan P. Metters, Fang Tan and Craig E. Banks, J. Solid State Electrochem. 2013, 17, 1553

[12] Electroanalytical applications of screen printed microelectrode arrays, Fang Tan, Jonathan P. Metters and Craig E. Banks, Sensors and Actuators B, 2013, 181, 454

[13] The electrochemistry of arylated anthraquinones in room temperature ionic liquids, Alica Gomis-Berenguer, Maria Gomez-Mingot, Leticia Garcia-Cruz, Thies Thiemann, Craig E. Banks, Vicente Montiel and Jesus Iniesta, J. Phys. Org. Chem. 2013, 26, 367

[14] Fabrication of Co-Planar Screen Printed Microband Electrodes, Jonathan P. Metters, Rashid O. Kadara and Craig E. Banks, The Analyst, 2013, 138, 2516

[15] Electrochemical Impedance Spectroscopy versus Cyclic Voltammetry for the Electroanalytical Sensing of Capsaicin Utilising Screen Printed Electrodes, Edward P. Randviir, Jonathan P. Metters,  John Stainton and Craig E. Banks, The Analyst, 2013, 138, 2970

[16] An oxygen pumping anode for electrowinning aluminium, Changquing Liu, Xiaobo Ji, Pingmin Zhang, Qiyuan Chen and Craig E. Banks, PCCP, 2013, 15, 6350

[17] Preliminary study on the effect of heated surfaces upon bloodstain pattern analysis, B
ethany A.J. Larkin and Craig E. Banks, Journal of Forensic Science, 2013, 58, 1289

[18] Bloodstain pattern analysis: looking at impacting blood from a different angle, Bethany A.J. Larkin and Craig E. Banks, Australian Journal of Forensic Science, 2013, 45, 85

[19] Analytical methods for quantifying creatinine within biological media, Edward P. Randviir and Craig E. Banks, Sensors and Actuators B: Chemical, 2013, 183, 239

[20] Freestanding three-dimensional graphene foam gives rise to beneficial electrochemical signatures within non-aqueous media, Dale A.C. Brownson, Luiz C.S. Figueiredo-Filho, Xiaobo Ji, Maria Gomez-Mingot, Jesus Iniesta, Orlando Fatibello-Filho, Dimitrios K. Kampouris and Craig E. Banks, J. Mater. Chem. A, 2013, 1, 5962

[21] Screen printed graphite electrochemical sensors for the voltammetric determination of antimony (III), Athanasios V. Kolliopoulos, Jonathan P. Metters and Craig E. Banks, Analytical Methods, 2013, 5, 3490

[22] Exploring the origins of the apparent "electrocatalytic" oxidation of kojic acid at graphene modified electrodes,  Luiz C.S. Figueiredo-Filho, Dale A.C. Brownson, Orlando Fatibello-Filho and Craig E. Banks, The Analyst, 2013, 138, 4436

[23] Voltammetric behaviour of free DNA bases, methylcytosine and oligonucleotides at disposible screen printed graphite electrode platforms, Ariadna Brotons, Luis Alcaraz Mas, Jonathan P. Metters, Craig E. Banks and Jesus Iniesta, The Analyst, 2013, 138, 5239

[24] A Na3V2(PO4)3 cathod material for use in hydrid lithium ion batteries, Weixin Song, Xiaobo Ji, Chengchi Pan, Yirong Zhu, Qiyuan Chen and Craig E. Banks, PCCP, 2013, 15, 14357

[25] Preliminary study on the effect of heated surfaces upon bloodstain pattern analysis, Bethany A.J. Larkin, Journal of Forensic Science, 2013, 58, 1289

[26] Differential pulse adsorptive stripping voltammetric determination of nanomolar levels of methotrexate utilising bismuth film modified electrodes, Deborah Asbahr, Luiz Carlos S. Figueiredo-Filho, Fernando Campanha Vicentini, Geiser Gabriel Oliveria, Orlando Fatibello-Filho and Craig E. Banks, Sensors and Actuators B., 2013, 188, 334

[27] The mechanistic exploration of porous activated graphene sheets-anchored SnO2 nanocrystals for application in high-performance Li-ion battery anodes, Yingchang Yang, Xiaobo Ji, Fang Lu, Qiyuan Chen and Craig E. Banks, PCCP, 2013, 15, 15098

[28] Electrochemically triggered graphene sheets through cathodic exfoliation for lithium ion battery anodes, Yingchang Yang, Xiaobo Ji, Xuming Yang, Chiwei Wang, Weinxin Song, Qiyuan Chen and Craig E. Banks, RSC Advances, 2013, 3, 16130

[29] Forensic electrochemistry: the electroanalytical sensing of Rohypnol (flunitrazepam) using screen-printed graphite electrodes without recourse for electrode or sample pre-treatment,  Jamie P. Smith, Jonathan P. Metters, Dimitrios K. Kampouris, Carlos Lledo-Fernandez, Oliver B. Sutcliffe and Craig E. Banks, The Analyst, 2013, 138, 6185

[30] Room temperature ionic liquid assisted well-dispersed core-shell tin nanoparticles through cathodic corrosion,  Fang Lu, Xiaobo Ji, Yingchang Yang, Wentao Deng and Craig E. Banks, RSC Advanced, 2013, 3, 18791

[31] Exploring the electrochemical performance of graphitic paste electrodes: graphene vs graphite,  Luiz C.S. Figueiredo-Filho, Dale A.C. Brownson, Maria Gomez-Mingot, Jesus Iniesta, Orlando Fatibello-Filho and Craig E. Banks, The Analyst, 2013, 138, 6354

[32] Ultra flexible paper based electrochemical sensors: effect of mechanical contortion upon electrochemical performance; Christopher W. Foster, Jonathan P. Metters and Craig E. Banks, Electroanalysis, 2013, 25, 2275

[33] An improved electrochemcial creatinine detection method via a Jaffe-based procedure, Edward P. Randviir, Dimitrios K. Kampouris and Craig E. Banks, The Analyst, 2013, 138, 6565

[34] A carbon quantum dot decorated RuO2 network: outstanding supercapacitances under ultrafast charge and discharge, Yirong Zhu, Xiaobo Ji, Chenchi Pan, Qingquing Sun, Weixin Song, Laibing Fang, Qiyuan Chen and Craig E. Banks, Energy and Environmental Science, 2013, 6, 3665


Editorial: Showcasing analytical science in the forensic fight against crime, Craig E. Banks and Jason Birkett, Analyst and Analytical Methods, from themed collection: Security and Forensics; Analytical Methods, 2013, 5, 5375


Book Chapters:

[1] Applications of Electrochemistry in Medicine; Chapter 4 Screen printed electrodes open new vistas in sensing: application to medical diagnosis. E
d: Mordechay Schlesinger. Springer 2013; Jonathan P. Metters and  Craig E. Banks
 

[2] Nanotechnology for the Energy Challenge. 2nd Edition. Edited by Javier Garcia-Martinez. Chapter 5: Graphene for Energy Production and Storage Applications; Dale A.C. Brownson, Jonathan P. Metters and Craig E. Banks 


2012  

[1] Fabricating Graphene Supercapacitors: Highlighting the Impact of Surfactants and Moieties, Dale A. C. Brownson and Craig E. Banks,  Chem. Commun., 2012, 48, 1425

[2] Graphene electrochemical supercapacitors: the influence of oxygen functional groups; Wentao Deng, Xiaobo Ji, Maria Gomez-Mingot, Fang Lu, Qiyuan Chen and Craig E. Banks, Chem. Commun, 2012, 48, 2770

[3] Polyaniline/polyacrylic acid/multi-walled carbon nanotube modified electrodes for sensing ascorbic acid, Ida Tiwari, Karan Pratap Singh, Manorama Singh and Craig E. Banks, Anal. Methods, 2012, 4, 118

[4] Development of a novel analytical approach combining the quantification of amino acids, organic acids and glucose using HPLC-UV-Vis and HPLC-MS with screening via NMR, Maria Gomez-Mingot, Luis A. Alcaraz, David A. MacIntyre, Beatriz Jimenez, Antonio Pineda-Lucema, Vicente Montiel, Craig E. Banks and Jesus Iniesta, Analytical Methods, 2012, 4, 284 


[5] Graphene oxide gives rise to unique and intriguing voltammetry, Dale A.C. Brownson, Alexandre C. Lacombe, Maria Gomez-Mingot and Craig E. Banks, RSC Adv., 2012, 2, 665

[6] Graphene electroanalysis: Inhibitory effects in the stripping voltammetry of cadmium with surfactant free graphene, Dale A.C. Brownson, Alexandre C. Lacombe, Dimitrios. K. Kampouris and Craig E. Banks, Analyst, 2012, 137, 420

[7] Printable thin film supercapacitors utilizing single crystal cobalt hydroxide nanosheets, Xiaobo Ji, Philip M. Hallam, Said M. Houssein, Rashid Kadara, Leiming Lang and Craig E. Banks, RSC Adv. 2012, 2, 1508

[8] CVD graphene vs. highly ordered pyrolytic graphite for use in electroanalytical sensing, Dale A.C Brownson, Roman V. Gorbachev, Sarah J. Haigh and Craig E. Banks, Analyst, 2012, 137, 833

[9] Electroanalytical sensing of chromium (III) and (VI) utilising gold screen printed macro electrodes, Jonathan P. Metters, Rashid O. Kadara and Craig E. Banks, Analyst, 2012, 137, 896
 

[10] Electrochemical Utilisation of Chemical Vapour Deposition Grown Carbon Nanotubes as Sensors, Jonathan P. Metters and Craig E. Banks, Vacuum, 2012, 86, 507

[11] Crime scene investigation III: Exploring the effects of drugs of abuse and neurotransmitters on bloodstain pattern analysis, Bethany A.J. Larkin, Meerna El-Sayed, Dale A.C. Brownson and Craig E. Banks, Analytical Methods, 2012, 4, 721

[12] Platinum screen printed electrodes for the electroanalytical sensing of hydrazine and hydrogen peroxide, Jonathan P. Metters, Fang Tan, Rashid O. Kadara and Craig E. Banks, Analytical Methods, 2012, 4, 721

[13] Identification of microbial volatile organic compounds (MVOCs) emitted from fungal isolates found on cinematographic film, Gavin D. Bingley, Joanna Verran, Lindsey J. Munro and Craig E. Banks, Anal. Methods, 2012,
4, 1265

[14] The electrochemical performance of graphene modified electrodes: An analytical perspective, Dale A. C. Brownson, Christopher W. Foster and Craig E. Banks, Analyst, 2012, 137, 1815

[15] The electrochemistry of CVD graphene: progress and prospects, Dale A. C. Brownson and Craig E. Banks, Phys. Chem. Chem. Phys., 2012, 14, 8264

[16] Limitations of CVD graphene when utilised towards the sensing of heavy metals, Dale A. C. Brownson and Craig E. Banks, RSC Adv., 2012, 2, 5385

[17] Electroanalytical properties of screen printed graphite microband electrodes, Jonathan P. Metters, Rashid O. Kadara, Craig E. Banks, Sensors and Actuators B: Chemical, 2012, 169, 136

[18] Conversion of natural egg-shell to 3D flower-like hydroxyapatite agglomerates for highlighly sensitive detection of As (+3) ions, Ying Zhang, Yong Liu, Xiaobo Ji, Craig E. Banks, Wei Zhang, Materials Letters, 2012, 78, 120

[19] Electrochemical Measurement of the DNA bases adenine and guanine at surfactant-free graphene modified electrodes, Edwards P. Randviir and Craig E. Banks, RSC Adv, 2012, 2, 5800

[20] Prussian blue modified solid carbon nanorod whisker paste composite electrodes; evaluation towards the electroanalytical sensing of H2O2, Carolin Siimenson, Jaanus Kruusma, Erik Anderson, Maido Merisalu, Vaino Sammelselg, Enn Lust and Craig E. Banks, 2012, International Journal of Electrochemistry, Article ID 238419, 7 pages

[21] Facile synthetic fabrication of iron oxide particles and novel hydrogen superoxide supercapacitors, Philip M. Hallam, Maria Gomez-Mingot, Dimitrios K. Kampouris and Craig E. Banks, RSC Adv. 2012, 2, 6672

[22] Exploring the electrochemical behaviour of screen printed graphite electrodes in a room temperature ionic liquid, Alica Gomis, Maria Gomez-Mingot, Vicente Montiel, Antonio Canals, Thies Thiemann, Rashid O. Kadara, Craig E. Banks and Jesus Iniesta, RSC Adv. 2012, 2, 7735

[23] Graphene electrochemistry: fundamental concepts through to prominent application, Dale A.C. Brownson, Dimitrios K. Kampouris and Craig E. Banks, Chem Soc Rev, 2012, 41, 6944

[24] Electroanalytical properties of screen printed shallow recessed electrodes, Jonthan P. Metters, Fang Tan, Rashid O. Kadara and Craig E. Banks, Analytical Methods, 2012, 4, 3140

[25] Electrochemistry of Q-Graphene, Edward P. Randviir, Dale A.C. Brownson, Maria Gomez-Mingot, Dimitrios K. Kampouris, Jesus Iniesta and Craig E. Banks, Nanoscale, 2012, 4, 6470

 

Book Chapters:

[1] Sonoelectrochemical Production of Nanomaterials, Jonathan P. Metters and Craig E. Banks in Power Ultrasound in Electrochemistry: from Versatile Laboratory Tool to Engineering Solution. Pages 283 - 300. 2012; Chapter 9

[2] Sonelectroanalysis: An Overview, Jonathan P. Metters, Jaanus Kruusma and Craig E. Banks in Power Ultrasound in Electrochemistry: from Versatile Laboratory Tool to Engineering Solution. Pages 79-99. 2012; Chapter 5 

 


 

2011

CVD Graphene Electrochemistry: Biologically Relevant Molecules; Dale A. C. Brownson, Maria Gomez-Mingtot and Craig E. Banks, Phys. Chem. Chem. Phys. 2011, 13, 20284

Graphene Electrochemistry: Surfactants Inherent to Graphene Inhibit Metal Analysis; Dale A.C. Brownson and Craig E. Banks, Electrochemistry Communications, 2011, 13, 111

Electrochemistry of graphene: not such a beneficial electrode material? Dale A. C. Brownson, Lindsey J. Munro, Dimitrios K. Kampouris and Craig E. Banks, RSC Adv., 2011, 1, 978

CVD Graphene Electrochemistry: The Role of Graphitic Islands; Dale A.C. Brownson, Craig E. Banks, Phys. Chem. Chem. Phys. 2001, 13, 15825

Graphene Electrochemistry: Surfactants Inherent to Graphene Can Dramatically Effect Electrochemical Processes, Dale A.C. Brownson, J.P. Metters, Dimitrios.K. Kampouris, Craig E. Banks, Electroanalysis, 2011, 23, 894

Electrolytically Fabricated Nickel Microrods on Screen Printed Graphite Electrodes: Electro-catalytic Oxidation of Alcohols; Nadeem A. Choudhry and Craig E. Banks; Anal. Methods, 2011, 3, 74

New direction in screen printed electroanalytical sensors; an overview of recent developments, Jonathan P. Metters, Rashid O. Kadara and Craig E. Banks, Analyst, 2011, 136, 1067

Plaster-trodes for electro-analytical sensing via electrodeposition with electro-catalytic metals; Nadeem A. Choudhry and Craig E. Banks, Analyst, 2011, 136, 1153

Flower-like agglomerates of hydroxyapatite crystals formed on an egg-shell membrane;   Ying Zhang, Yong Liu, Xiaobo Ji, Craig E. Banks, Jiangfeng Song, Colloids and Surfaces B: Biointerfaces, 2011,  82, 490

Quantifying the electron transfer sites of graphene; Philip M. Hallam, Craig E. Banks, Electrochemistry Communications, 2011, 13, 8

A facile approach for quantifying the density of defects (edge plane sites) of carbon nanomaterials and related structures; Philip M. Hallam and Craig E. Banks, Phys. Chem. Chem. Phys., 2011, 13, 1210

Disposable manganese oxide screen printed electrodes for electroanalytical sensing; Biljana R. Šljukić, Rashid O. Kadara and Craig E. Banks, Anal. Methods, 2011, 3, 105

Direct oxidation of methionine at screen printed graphite macroelectrodes: Towards rapid sensing platforms;  Maria Gómez-Mingot, Jesús Iniesta, Vicente Montiel, Rashid O. Kadara, Craig E. Banks, Sensors and Actuators B, 2011, 155, 831

An overview of graphene in energy production and storage applications; Dale A.C. Brownson, Dimitrios K. Kampouris and Craig E. Banks, Journal of Power Sources, 2011, 196, 4873 

 

Graphene electrochemistry: fabricating amperometric biosensors; Dale A. C. Brownson and Craig E. Banks, Analyst, 2011, 136, 2084

 

Screen printed graphite macroelectrodes for the direct electron transfer of cyctochrome C; Maria Gomez-Mington, Jesus Iniesta, Vicente Montiel, Rashid O. Kadara and Craig E. Banks, Analyst, 2011, 136, 2146

 

Sea cucumber-like hydroxyapatite: cation exchange membrane-assisted synthesis and its application in ultra-sensitive heavy metal detection Ying Zhang, Yong Liu, Xiaobo Ji, Craig E. Banks and Wei Zhang, Chem. Commun. 2011, 47, 4126

 

Flower-like hydroxyapatite modified carbon paste electrodes applicable for  highly sensitive detection of heavy metal ions, Ying Zhang,  Yong Liu,Xiaobo Ji, Craig E. Banks, Wei Zhang, J. Material Chem 2011, 21, 7552

 

An overview of quantifying and screening drugs of abuse in biological samples: Past and present, Carlos Lledo-Fernandez and Craig E. Banks, Anal. Methods, 2011, 3, 1227

Crime scene investigation II: The effect of warfarin on bloodstain pattern analysis, Meerna El-Sayed, Dale A. C. Brownson and Craig E. Banks, Anal. Methods, 2011, 3, 1521

Solid carbon nanorod whiskers: application to the electrochemical sensing of biologically relevant molecules, Philip M. Hallam, Bill L. Riehl, Bonnie D. Riehl and Craig E. Banks, RSC Advances, 2011, 1, 93

 


Cubic Copper Hexacyanoferrates Nanoparticles: Facile Template-Free Deposition and Electrocatalytic Sensing Towards Hydrazine, Xingxing Wang, Yun Zhang, Shan Jiang, Xiaobo Ji, Yong Liu, and Craig E. Banks, International Journal of Electrochemistry, vol. 2011, Article ID 395724, 2011. doi:10.4061/2011/395724

 

Hexagonal nickel oxide nanoplate-based electrochemical supercapacitor, Zhihong Zhu, Jing Ping, Xiaopeng Huang, Jiugang Hu, Qiyuan Chen, Xiaobo Ji and Craig E. Banks, J. Materials Science, DOI: 10.1007/s10853-011-5826-8

 

Conversion of egg-shell to hydroxyapatite for highly sensitive detection of endocrine disruptor bisphenol A; Ying Zhang, Yong Liu, Xiaobo Ji, Craig E. Banks and Wei Zhang, J. Mater. Chem., 2011, 21, 14428

Electrochemical capacitors utilising transtion metal oxides: an update of recent developments, Wentao Deng, Xiaobo Ji, Qiyuan Chen and Craig E. Banks, RSC Adv. 2011, 1, 1171

 

 
2010  

High Throughput Screening of Lead Utilising Disposable Screen Printed Shallow Recessed Microelectrode Arrays; Sebastian J. Hood, Rashid O. Kadara, Dimitrios K. Kampouris and Craig E. Banks; The Analyst, 2010, 135, 76

Metallic Impurity Free Carbon Nanotube Paste Electrodes; Maido Merisalu, Jaanus Kruusma and Craig E. Banks, Electrochemistry Communications, 2010, 12, 144

Disposable Highly Ordered Pyrolytic Graphite-Like Electrodes: Tailoring the Electrochemical Reactivity of Screen Printed Electrodes; Nadeem A. Choudry, Dimitrios K. Kampouris, Rashid O. Kadara and Craig E. Banks, Electrochem. Commun. 2010, 12, 6

Cosmetic Electrochemistry: The Facile Production of Graphite Microelectrode Ensembles; Nadeem A. Choudhry, Rashid O. Kadara, Craig E. Banks, PhysChemChemPhys, 2010, 12, 2285

Screen Printed Electrodes Provide Micro-domain Sites for Fabricating Disposable Electro-Catalytic Ensembles; Nadeem A. Choudhry, Rashid O. Kadara, Norman Jenkinson and Craig E. Banks, Electrochem. Commun. 2010, 12, 406

Gold Nanoparticle Ensembles Allow Mechanistic Insights into Electrochemical Processes; Mohamed Khairy, Nadeem A. Choudry, Mohamed Oustai, Dimitrios K. Kampouris, Rashid O. Kadara and Craig E. Banks, ChemPhysChem, 2010, 11, 875

 

Wentao Deng, Xiaobo Ji, Qiyuan Chen and Craig E. Banks, RSC Adv., 2011

Non-Enzymatic Amperometric Glucose Biosensor Based on Nickel Hexacyanoferrate Nanoparticle Film Modified Electrodes; Xiaoyan Wang, Yun Zhang, Craig E. Banks, Qiyuan Chen and Xiaobo Ji, Colloids and Surfaces B: Biointerfaces 78, 2010, 363

In-situ Bismuth Film Modified Screen Printed Electrodes for the Bio-monitoring of Cadmium in Oral (Saliva) fluid; Mohamed Khairy, Rashid O. Kadara, Dimitrios K. Kampouris and Craig E. Banks, Anal. Methods 2010, 2, 645

Spice up Your Life: Screening the Illegal Components of ‘Spice’ Herbal Products; Claire E. J. Emanuel, Bill Ellison and Craig E. Banks, Anal. Methods, 2010, 2, 614

Gold Nanoparticle Modified Screen Printed Electrodes for the Trace Sensing of Arsenic (III)in the Presence of Copper (II); Mohamed Khairy, Dimitrios K. Kampouris, Rashid O. Kadara and Craig E. Banks, Electroanalysis, 2010, 22, 2496 

Disposable Bismuth Oxide Screen Printed Electrodes for the Sensing of Zinc in Seawater; Mohamed Khairy, Rashid O. Kadara, Dimitrios K. Kampouris, and Craig E. Banks, Electroanalysis, 2010, 22, 1455

Electroanalytical Sensing of Nitrite at Shallow Recessed Screen Printed Microelectrode Arrays; Mohamed Khairy, Rashid O. Kadara and Craig E. Banks, Anal. Methods, 2010, 2, 851

Nickel Oxide Screen Printed Electrodes for the Sensing of Hydroxide Ions in Aqueous Solutions; Philip M. Hallam, Dimitrios K. Kampouris, Rashid O. Kadara, Norman Jenkinson and Craig E. Banks, Anal. Methods, 2010, 2, 1152

Cosmetic Electrochemistry II: Rapid and Facile Production of Metallic Electro-catalytic Ensembles; Nadeem A. Choudhry, Mohamed Khairy, Rashid O. Kadara, Norman Jenkinson and Craig E. Banks, Electroanalysis, 2010, 22, 1831

Disposable Bismuth Oxide Screen Printed Electrodes for the High throughput screening of heavy metals; Rashid O. Kadara, Norman Jenkinson and Craig E. Banks, Electroanalysis, 2010, 21, 2410

 

Electrode Design of Microelectrode Arrays can significantly affect the Electro-analytical Performance towards Chromium (VI) Sensing; Dimitrios K. Kampouris and Craig E. Banks, Environmentalist, 2010, 104, 14

 

Exploring the Physicoelectrochemical Properties of Graphene; Dimitrios K. Kampouris and Craig E. Banks; Chem. Commun. 2010, 46, 8986

 

Graphene Electrochemistry: an Overview of Potential Applications; Dale A. C. Brownson and Craig E. Banks; Analyst, 2010, 135, 2768

 

Crime Scene Investigation: The Effect of Drug Contaminated Bloodstains on Bloodstain Pattern Analysis; Dale A. C. Brownson and Craig E. Banks; Anal. Methods, 2010, 2, 1885

 

Graphite Screen Printed Electrodes for the Electrochemical Sensing of Chromium (VI); Philip M. Hallam, Dimitrios K. Kampouris, Rashid O. Kadara and Craig E. Banks, Analyst, 2010, 135, 1947

 

2009

Understanding the Physico-Electrochemical Properties of Carbon Nanotubes: Current State of the Art; Xiaobo Ji, Rashid O. Kadara, Jaanus Kruusma, Qiyuan Chen and Craig E. Banks, Electroanalysis, 2009, 22, 7

Metallic Free Carbon Nanotube Cluster Modified Screen Printed Electrodes for the Sensing of Nicotine in Artificial Saliva; Louise Highton, Rashid O. Kadara, Norman Jenkinson, Bill Logan Riehl and Craig E. Banks, Electroanalysis, 2009, 21, 2387

Mesoporous -TiO2 Nanoparticles Based Carbon Paste Electrodes Exhibit Enhanced Electrochemical Sensitivity for phenols; Huogang Lin, Xiaobo Ji, Qiyuan Chen, Yikai Zhou, Craig E. Banks and Kangbing Wu, Electrochem. Commun. 2009, 11, 1990

Why ‘bigger the better’ is not always the case when utilising microelectrodes arrays: high density vs. low density arrays for the electro-analytical sensing of chromium (VI); Sebastian J. Hood, Dimitrios. K. Kampouris, Rashid O. Kadara, Norman Jenkinson, F. Javier del Campo, Francesc Xavier Muñoz and Craig E. Banks, The Analyst, 2009, 134, 2301

Characterisation and Fabrication of Disposable Screen Printed Microelectrodes; Rashid O. Kadara, Norman Jenkinson and Craig E. Banks, Electrochem. Commun. 2009, 11, 1377

Characterisation of Commercially Available Electrochemical Sensing Platforms; Rashid O. Kadara, Norman Jenkinson and Craig E. Banks; Sensors and Actuators B, 2009, 138, 556

The Heterogeneity of Multi-Walled and Single-Walled Carbon Nanotubes: Iron Oxide Impurities Can Catalyse the Electrochemical Oxidation of Glucose; Laurent Siegert, Dimitrios K. Kampouris, Jaanus Kruusma, Väino Sammelselg and Craig E. Banks, Electroanalysis, 2009, 21, 48

Screen Printed Electrochemical Platforms for pH Sensing; Dimitrios K. Kampouris, Rashid O. Kadara, Norman Jenkinson and Craig E. Banks; Anal. Meths. 2009, 1, 25

Next Generation Screen Printed Electrochemical Platforms: Non-Enzymatic Sensing of Carbohydrates Using Copper (II) Oxide Screen Printed Electrodes; Nadeem A. Choudhry, Dimitrios K. Kampouris, Rashid O. Kadara, Norman Jenkinson and Craig E. Banks, Anal. Meths. 2009, 1, 183

Sonoelectroanalysis-Applicataion to Lead Determination; Biljana R. Šljukić, Craig E. Banks and Richard G. Compton,  HEMIJSKA INDUSTRIJA, 2009,  63, 529

Screen Printed Recessed Microelectrodes Arrays; Rashid O. Kadara, NormanJenkinson and Craig E. Banks, Sens. Act. B.2009, 11, 1377

2008

A Systematic Study of the Electrochemical Determination of Hydrogen Peroxide at Single-Walled Carbon Nanotube Ensemble Networks; Jaanus Kruusma, Väino Sammelselg and Craig E. Banks, Electrochem. Commun. 2008, 10, 1872

Manufacturing Electrochemical Platforms: Direct-Write Dispensing versus Screen Printing; Rashid O. Kadara, Norman Jenkinson, Bo Li, Kenneth H. Church and Craig E. Banks, Electrochem. Commun. 2008, 10, 1517

Misinterpretations of the Electro-catalysis Observed at C60 Modified Glassy Carbon Electrodes for the Determination of Atenolol; Sebastian Griese, Dimitrios K. Kampouris, Rashid O. Kadara and Craig E. Banks, Electrochem Commun, 2008, 10, 1633

A Critical Review of the Electro-Catalysis Reported at C60 modified electrodes; Sebastian Griese, Dimitrios K. Kampouris, Rashid O. Kadara and Craig E. Banks, Electroanalysis, 2008, 20, 1507

The Underlying Electrode Causes The Reported ‘Electro-catalysis’ Observed at C60 Modified Glassy Carbon Electrodes in the case of N-(4-hydroxyphenyl)ethanamide and Salbutamol; Sebastian Griese, Dimitrios K. Kampouris, Rashid O. Kadara and Craig E. Banks, Electrochimica Acta, 2008, 53, 5885

Multi-Walled Carbon Nanotube Modified Basal Plane Pyrolytic Graphite Electrodes: Exploring Heterogeneity, Electro-catalysis and Highlighting Batch to Batch Variation; Craig P. Jones, Kerstin Jurkschat, Alison Crossley and Craig E. Banks, J. Iranain. Chem. Soc. 2008, 5, 279

 2007

Exploring alkylated ferrocene sulfonates as electrocatalyts for sulfide detection; Craig. E. Banks, Alexandra S. Yashina, Gary J. Tustin, Valerie G.H. Lafitte, Timothy G.J. Jones, Nathan S. Lawrence, Electroanalysis, 2007, 19, 2518

Synthesis and characterisation of water soluble ferrocenes: Molecular tuning of redox potentials; Gary J. Tustin, Valerie G.H. Lafitte, Craig E. Banks, Timothy G. J. Jones, Robert B. Smith, James Davis and Nathan S. Lawrence, J. Organometallic Chem. 2007, 692, 5173

Electrochemical ammonia gas sensing in non-aqueous systems: a comparison of propylene carbonate with room temperature ionic liquids; Xiaobo Ji, Craig E. Banks, Debbie S. Silvester, Leigh Aldous, Christopher Hardacre and Richard G. Compton, Electroanalysis, 2007, 19, 2194

ingle Walled Carbon Nanotubes Contain Residual Iron Oxide Impurities Which Can Dominate Their Electrochemical Activity; Jaanus Kruusma, Nigel Mould, Kerstin Jurkschat, Alison Crossley and Craig E. Banks, Electrochem. Commun. 2007, 9, 2330


 

Electroanalysis Utilising Amperometric Microdisc Electrode Arrays Olga Ordeig, Javier del Campo, Francesc Xavier Muñoz, Craig E. Banks, and Richard G. Compton, Electroanalysis, 2007, 19, 1973

The Use of High-Purity Metal-Catalyst Free Multi-Walled Carbon Nanotubes to Avoid Potential Experimental Misinterpretations; CraigP.Jones, Kerstin Jurkschat, Alison Crossley, Richard G. Comtpon, Langmuir, 2007, 23, 9501

Nanoscale Tunable Proton/Hydrogen Sensing: Evidence for Surface Adsorbed Hydrogen Atom on Architectured Palladium Nanoparticles; Han-Pu Liang­, Nathan S. Lawrence, Timothy G. J. Jones, Craig E. Banks, and Caterina Ducati, J. Am. Chem. Soc. 2007129,  6068

Lead(IV) oxide–graphite composite electrodes: Application to sensing of ammonia, nitrite and phenols. Biljana Šljukic, Craig E. Banks, Alison Crossley, and Richard G . Compton; Analytica Chimica Acta, 2007, 587, 240 

Electrosynthesis of hydrogen peroxide via the reduction of oxygen assisted by power ultrasound. José González-García, Craig E. Banks, Biljana Šljukic, and Richard G. Compton. Ultrasonics Sonochem., 2007, 14, 405

Electrode Kinetic Studies of the Hydroquinone-Benzoquinone System and the Reaction between Hydroquinone and Ammonia in Propylene Carbonate: Application to the Indirect Electroanalytical Sensing of Ammonia; Xiaobo Ji, Craig E. Banks, Debbie S. Silvester, Andrew J. Wain, and Richard G. Compton. Journal of Physical Chemistry C, 2007, 111, 1496

Electroanalytical Determination of Cadmium(II) and Lead(II) Using an in-situ Bismuth Film Modified Edge Plane Pyrolytic Graphite Electrode; Roohollah Torabi Kachoosangi, Craig E. Banks, Xiaobo Ji, Richard G. Compton, Anal. Sci. 2007, 23, 283

An Electrochemical Study of Immobilised Ruthenocene in Aqueous Media; Craig E. Banks, Kay L. Robinson, Han-Pu Liang, Andrew W. Meredith, Nathan S. Lawrence, Electroanalysis, 2007, 19, 555

Super-washing does not leave single walled carbon nanotubes iron-free; Kerstin Jurkschat, Xiaobo Ji, Alison Crossley, Richard G. Compton, and Craig E. Banks,  Analyst , 2007, 132 , 21

Manganese Dioxide Graphite Composite Electrodes: Application to the Electroanalysis of Hydrogen Peroxide, Ascorbic Acid and Nitrite. Cathryn. E. Langley, Biljana Šljukic, Craig E. Banks, and Richard G. Compton; Anal Sci. 2007, 23, 165

Copper Oxide - Graphite Composite Electrodes: Application to Nitrite Sensing; Biljana Šljukic, Craig E. Banks, Alison Crossley, and Richard G. Compton, Electroanalysis, 2007, 19, 79

At Point of Use Sono-Electrochemical Generation of Hydrogen Peroxide for Chemical Synthesis: The Green Oxidation of Benzonitrile to Benzamide; José González-García, Ludovic Drouin, Craig E. Banks, Biljana Šljukić and Richard G. Compton, Ultrasonics Sonochem. 2007, 14, 113

Electrochemical characterisation of novel water-soluble ruthenocene complexes: An anion-dependent response; Nathan S. Lawrence, Craig E. Banks, Gary J. Tustin, Timothy G.J. Jones, Robert B. Smith, James Davis, Jay D. Wadhawan, Electrochem. Commun. 2007, 9, 1451

Books

Understanding Voltammetry (1st Edition), Richard G. Compton and Craig E. Banks, Imperial College Press, Sept 2007; ISBN:   978-981-270-625-6

Understanding Voltammetry (2nd Edition), Richard G. Compton and Craig  E. Banks, Imperial College Press, Dec 2010;ISBN: 978-1-84816-585-4

Book Chapters

Chloride determination in Ionic Liquids; Constanza Villagrán, Craig E. Banks, Maggel Deetlefs, Gordon Driver, William R. Pitner, Richard G. Compton, and Christopher Hardacre; New York ACS symposium series 902 "Ionic Liquids IIIB: Fundamentals, Progress, Challenges and Opportunities”; ACS Symposium Servies Edited By R.D.Rodger and K.R. Seddon, Vol: 902; Pages: 244-258; Yr: 2005  
 

Carbon based electrodes in electroanalysis: Edge plane pyrolytic graphite electrodes and carbon modified multi-walled nanotube electrodes open new vistas in electroanalysis. Xiaobo Ji, Richard G. Compton, Craig E. Banks. Recent Advances in Analytical Electrochemistry, Research Signpost, Kerala, INDIA (2007) Number of pages: 32. Ed: K.I. Ozoemena. ISBN: 978-81-7895-274-1

Graphene: Properties, Synthesis and Application. Chapter 7: ELectrochemcical Performance of Graphene, D.A.C. Brownson and C.E. Banks. Editors: Zhiping Xu. Series: Nanotechnology Science and Technology. 2011. ISBN: 9781614709954

Power Ultrasound in Electrochemistry: From Versatile Laboratory Tool to Engineering Solution.  Chapter 3: Sonoelectroanalysis: An Overview, Jonathan P. Metters, Jaanus Kruusma and Craig E. Banks
. Editor: Bruno Pollet. Wiley 2012, ISBN: 9780470974247.

Power Ultrasound in Electrochemistry: From Versatile Laboratory Tool to Engineering Solution.  Chapter 9: Sonoelectrochemcial Production of Nanomaterials, Jonathan P. Metters,  and Craig E. Banks. Editor: Bruno Pollet. Wiley 2012, ISBN: 9780470974247.

Applications of Electrochemistry in Medicine; Chapter 4 Screen printed electrodes open new vistas in sensing: application to medical diagnosis. Ed: Mordechay Schlesinger. Springer 2013
 

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