Alan O'Riordan
Alan O'Riordan
Tyndall National Institute
Verified email at - Homepage
Cited by
Cited by
Tetrodotoxin: Chemistry, toxicity, source, distribution and detection
V Bane, M Lehane, M Dikshit, A O’Riordan, A Furey
Toxins 6 (2), 693-755, 2014
Electrochemical detection of uric acid and ascorbic acid using r-GO/NPs based sensors
F Mazzara, B Patella, G Aiello, A O'Riordan, C Torino, A Vilasi, R Inguanta
Electrochimica Acta 388, 138652, 2021
Advanced photoresist technologies for microsystems
J O'Brien, PJ Hughes, M Brunet, B O'Neill, J Alderman, B Lane, ...
Journal of Micromechanics and Microengineering 11 (4), 353, 2001
Poly (9, 9-dioctylfluorene) nanowires with pronounced β-phase morphology: synthesis, characterization, and optical properties
D O'Carroll, D Iacopino, A O'Riordan, P Lovera, ╔ O'Connor, GA O'Brien, ...
Advanced Materials 20 (1), 42-48, 2008
Biosensing in dermal interstitial fluid using microneedle based electrochemical devices
J Madden, C O'Mahony, M Thompson, A O'Riordan, P Galvin
Sensing and Bio-Sensing Research 29, 100348, 2020
A potentiometric biosensor for rapid on-site disease diagnostics
A Tarasov, DW Gray, MY Tsai, N Shields, A Montrose, N Creedon, ...
Biosensors and Bioelectronics 79, 669-678, 2016
Point-of-care PCR assays for COVID-19 detection
N Gupta, S Augustine, T Narayan, A O’Riordan, A Das, D Kumar, ...
Biosensors 11 (5), 141, 2021
Substrate topography: a valuable in vitro tool, but a clinical red herring for in vivo tenogenesis
A English, A Azeem, K Spanoudes, E Jones, B Tripathi, N Basu, ...
Acta biomaterialia 27, 3-12, 2015
Near-infrared electroluminescent devices based on colloidal HgTe quantum dot arrays
╔ O’Connor, A O’Riordan, H Doyle, S Moynihan, A Cuddihy, G Redmond
Applied physics letters 86 (20), 2005
Electroanalysis at Single Gold Nanowire Electrodes
K Dawson, A Wahl, R Murphy, A O'Riordan
The Journal of Physical Chemistry C 116 (27), 14665–14673, 2012
Biomimetic nanostructure fabrication: Nonlithographic lateral patterning and self-assembly of functional bacterial S-layers at silicon supports
ES Gy÷rvary, A O'Riordan, AJ Quinn, G Redmond, D Pum, UB Sleytr
Nano letters 3 (3), 315-319, 2003
Copper nanowire array as highly selective electrochemical sensor of nitrate ions in water
B Patella, RR Russo, A O'Riordan, G Aiello, C Sunseri, R Inguanta
Talanta 221, 121643, 2021
Single on-chip gold nanowires for electrochemical biosensing of glucose
K Dawson, M Baudequin, A O'Riordan
Analyst 136 (21), 4507-4513, 2011
Near infrared electroluminescence from neodymium complex–doped polymer light emitting diodes
A O'Riordan, E O'Connor, S Moynihan, P Nockemann, P Fias, ...
Thin Solid Films 497 (1-2), 299-303, 2006
Single nanoskived nanowires for electrochemical applications
K Dawson, J Strutwolf, KP Rodgers, G Herzog, DWM Arrigan, AJ Quinn, ...
Analytical chemistry 83 (14), 5535-5540, 2011
Electrochemical detection of free-chlorine in Water samples facilitated by in-situ pH control using interdigitated microelectrodes
I Seymour, B O’Sullivan, P Lovera, JF Rohan, A O’Riordan
Sensors and Actuators B: Chemical 325, 128774, 2020
Narrow bandwidth red electroluminescence from solution-processed lanthanide-doped polymer thin films
A O'Riordan, E O'Connor, S Moynihan, X Llinares, R Van Deun, P Fias, ...
Thin Solid Films 491 (1-2), 264-269, 2005
Reagent free electrochemical-based detection of silver ions at interdigitated microelectrodes using in-situ pH control
LA Wasiewska, I Seymour, B Patella, R Inguanta, CM Burgess, G Duffy, ...
Sensors and Actuators B: Chemical 333, 129531, 2021
The Influence of Anisotropic Nano- To Micro-Topography on in Vitro and in Vivo Osteogenesis
A Azeem, A English, P Kumar, A Satyam, M Biggs, E Jones, B Tripathi, ...
Nanomedicine 10 (5), 693-711, 2015
PANI-based wearable electrochemical sensor for pH sweat monitoring
F Mazzara, B Patella, C D’Agostino, MG Bruno, S Carbone, F Lopresti, ...
Chemosensors 9 (7), 169, 2021
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