about
The Shono-type electroorganic oxidation of unfunctionalised amides. Carbon-carbon bond formation via electrogenerated N-acyliminium ionsOxidation of anthracene on platinum macro- and micro-electrodes: Sonoelectrochemical, cryoelectrochemical and sonocryoelectrochemical studies.Computational electrochemistry: finite element simulation of a disk electrode with ultrasonic acoustic streaming.Metal nanoparticles and related materials supported on carbon nanotubes: methods and applications.Electrochemistry provides a point-of-care approach for the marker indicative of Pseudomonas aeruginosa infection of cystic fibrosis patients.Ultrasound: promoting electroanalysis in difficult real world media.Edge plane pyrolytic graphite electrodes in electroanalysis: an overview.New electrodes for old: from carbon nanotubes to edge plane pyrolytic graphite.Twittering About Research: A Case Study of the World's First Twitter Poster Competition.Pencil It in: Exploring the Feasibility of Hand-Drawn Pencil Electrochemical Sensors and Their Direct Comparison to Screen-Printed Electrodes.3D Printed Graphene Based Energy Storage Devices.A fluorescence-quenching platform based on biomineralized hydroxyapatite from natural seashell and applied to cancer cell detection.Graphene electrochemistry: an overview of potential applications.New directions in screen printed electroanalytical sensors: an overview of recent developments.Graphene electrochemistry: fundamental concepts through to prominent applications.An overview of recent developments in the analytical detection of new psychoactive substances (NPSs).Electrode substrate innovation for electrochemical detection in microchip electrophoresis.Titanium nanoparticles (TiO2)/graphene oxide nanosheets (GO): an electrochemical sensing platform for the sensitive and simultaneous determination of benzocaine in the presence of antipyrine.Evaluating the potential of thermal read-out techniques combined with molecularly imprinted polymers for the sensing of low-weight organic molecules.The fabrication, characterisation and electrochemical investigation of screen-printed graphene electrodes.Simultaneous Voltammetric Determination of Acetaminophen and Isoniazid (Hepatotoxicity-Related Drugs) Utilizing Bismuth Oxide Nanorod Modified Screen-Printed Electrochemical Sensing Platforms.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).Antimicrobial Efficacy and Synergy of Metal Ions against Enterococcus faecium, Klebsiella pneumoniae and Acinetobacter baumannii in Planktonic and Biofilm Phenotypes.Cobalt phthalocyanine modified electrodes utilised in electroanalysis: nano-structured modified electrodes vs. bulk modified screen-printed electrodes.Label-Free Detection of Small Organic Molecules by Molecularly Imprinted Polymer Functionalized Thermocouples: Toward In Vivo Applications.Green electrochemical sensing platforms: utilizing hydroxyapatite derived from natural fish scales as a novel electrochemical material for the sensitive detection of kidney injury molecule 1 (KIM-1).Forensic electrochemistry: the electroanalytical sensing of synthetic cathinone-derivatives and their accompanying adulterants in "legal high" products.Gas sensing using edge-plane pyrolytic-graphite electrodes: electrochemical reduction of chlorine.Non-enzymatic amperometric glucose biosensor based on nickel hexacyanoferrate nanoparticle film modified electrodes.Screen-printed electrode-based electrochemical detector coupled with in-situ ionic-liquid-assisted dispersive liquid-liquid microextraction for determination of 2,4,6-trinitrotoluene.Graphene ultracapacitors: structural impacts.Preliminary study on the effect of heated surfaces upon bloodstain pattern analysis.Exploring the electrochemical performance of graphitic paste electrodes: graphene vs. graphite.The mechanistic exploration of porous activated graphene sheets-anchored SnO2 nanocrystals for application in high-performance Li-ion battery anodes.Electrochemical impedance spectroscopy versus cyclic voltammetry for the electroanalytical sensing of capsaicin utilising screen printed carbon nanotube electrodes.Voltammetric behaviour of free DNA bases, methylcytosine and oligonucleotides at disposable screen printed graphite electrode platforms.A self-catalytic carbon paste electrode for the detection of vitamin B12.Abrasive immobilization of carbon nanotubes on a basal plane pyrolytic graphite electrode: application to the detection of epinephrine.Amperometric detection of glucose using self-catalytic carbon paste electrodes.Basal plane pyrolytic graphite modified electrodes: comparison of carbon nanotubes and graphite powder as electrocatalysts.
P50
Q28088276-788FEACB-EC7C-43D1-8213-A7954C196439Q31019184-463160F4-4233-43CE-A9E5-C0C04AA3E107Q31019184-8B712DC8-F1C6-42D3-8ECD-D5C524E18FBBQ33250792-543BF426-7268-4FF7-BE6D-29CD66B73902Q34595500-28804FCE-C47B-4861-B693-6C2D4B9D183EQ34595500-E50026B9-E1B3-4B4C-9BC8-E73E84F4A26BQ35187639-83579C2C-C040-48DC-9223-8D08B3C9BF18Q35851319-4997232C-E26E-4F3B-A8D7-4DA4E37BE036Q36326873-8F4FE556-60BE-4474-8016-F89ED98B2689Q36373275-16639A97-DCFA-44AF-99B6-C917FD6B2A87Q36373275-85FF9D41-CF56-42F8-B02B-5019FF474807Q36444457-CE0BC4FA-4CCB-4497-9642-29064FF22815Q37291231-D487ADE7-A338-4ABA-948F-A4C4A17B0BBDQ37715122-194034EB-B87A-4B1B-8BC6-DBAF970C13A5Q37736306-4176D5BC-A66B-490A-B461-7C5B4B76FE26Q37796620-870398ED-F575-424B-9CA8-C56D7495D212Q37833937-648E9AA5-FA82-48CF-AFAD-59BCCC19672CQ38031107-FB9C7A96-1149-4100-92FC-CA3F1BFE9AD8Q38510888-5E36D46A-C79A-42D5-8AB4-30347FBA2BF9Q38514805-2896878C-31F0-44FF-9E5C-A03A53CF80F8Q38610656-E65BBC4E-2605-4C75-A84A-2F3D8D4E6193Q38950108-1D50E58A-8C13-4F0F-850A-7F4CDCCD75B3Q39265382-14DD30A4-F859-4458-89CB-FB0810E1330BQ40332247-C9F257AB-AC2A-486D-97C5-ABCD39901954Q40658864-7A05F67B-A776-4491-8CCF-29D562E0E466Q41062323-85846980-170F-433A-9BE4-32BE4278B366Q41828562-78C1D590-FBD2-4CE2-AB43-FD38D0D74D6FQ41839901-35386D79-1E3A-48AB-90BF-87AD3E6B293EQ42192717-93353818-A1BA-4334-B0C4-7599A13FE163Q42238818-61286409-D17E-4470-9723-8E377F566C95Q42478030-CE00CD62-16AD-4637-A286-8CE0AF0DC225Q43090180-F5A150D4-3AE9-49E1-8FA9-75AA085995C5Q43872691-263A6BC0-D0DD-43FE-84EB-AC7E1F13D2C6Q43989349-3A8CFFB0-5647-4CB0-B688-2A147EABAA30Q44052206-09A31641-CB23-4511-A235-4A36BF26E83AQ44134071-5B2392F2-8CC8-442C-A38B-3B5F2A6A6120Q44149982-A54AD7E8-95EC-4E15-AA63-5A513C0F78F9Q44245299-61303549-5EB2-486D-80E7-80D86BDBEAD0Q44550654-2AB9FA96-9784-4BE0-BDCF-E8F519A198D6Q44707129-0F122C3C-8064-42E7-B136-9E0D759B437E
P50
description
onderzoeker
@nl
researcher
@en
researcher
@en-gb
ricercatore
@it
հետազոտող
@hy
name
Craig E Banks
@ast
Craig E Banks
@en
Craig E Banks
@en-gb
Craig E Banks
@es
Craig E Banks
@nl
Craig E Banks
@sl
type
label
Craig E Banks
@ast
Craig E Banks
@en
Craig E Banks
@en-gb
Craig E Banks
@es
Craig E Banks
@nl
Craig E Banks
@sl
prefLabel
Craig E Banks
@ast
Craig E Banks
@en
Craig E Banks
@en-gb
Craig E Banks
@es
Craig E Banks
@nl
Craig E Banks
@sl
P214
P244
P106
P1153
7103312443
P21
P214
P244
nb2008002619
P31
P496
0000-0002-0756-9764
P734
P735
P7859
lccn-nb2008002619