publications.
From Montclair State
*Undergraduate student authors
*Undergraduate student authors
23. Electrodeposition parameters dramatically influence the stability and performance of nSi/Pt light addressable electrochemical sensors for H2O2 sensing. Hernandez, J.B.;* Epright, Z.D.;* Terrero Rodríguez, I.M.;^ O’Neil, G.D. ChemElectroChem 2023, 10, e202300400.
22. Square wave voltammetry enables measurement of light-activated oxidations and reductions on n-type semiconductor/metal junction light-addressable electrochemical sensors. Arthur, E.; Ali, H.*; Hussain, A.*; O'Neil, G.D. Anal. Chem. 2023, 95, 9219–9226.
ChemRxiv.
ChemRxiv.
21. Voltammetric pH measurements in unadulterated foodstuffs, urine, and serum with 3D-printed graphene/poly(lactic acid) electrodes. Rabboh, F.M.*; O'Neil, G.D. Anal. Chem. 2020, 92, 14999–15006.
ChemRxiv.
ChemRxiv.
20. Light-addressable electrochemical sensing with electrodeposited n-silicon/gold nanoparticle Schottky junctions. Terrero Rodríguez, I.M.; Borrill, A.J.; Schaffer, K.J.*; Hernandez, J.B.*; O'Neil, G.D. Anal. Chem. 2020, 92, 11444–11452.
ChemRxiv.
ChemRxiv.
19. Towards Single-step Production of Functional Electrochemical Devices using 3D Printing: Progress, Challenges, and Opportunities. O'Neil, G.D. Current Opinion in Electrochemistry 2020, 20, 60-65.
*Invited perspective
*Invited perspective
18. Trace analysis of heavy metals (Cd, Pb, Hg) using 3D printable PLA-graphene composite electrodes. Walters, J.G.*; Ahmed, S.*; Terrero Rodríguez, I.M.; O'Neil, G.D. Electroanalysis 2020, 32, 859-866.
ChemRxiv.
ChemRxiv.
17. Single-step fabrication of electrochemical flow cells utilizing multi-material 3D printing. O'Neil, G.D.; Halloran, K.*; Janusz, J.N.*; Rodríguez, A.*; Terrero Rodríguez, I.M. Electrochem. Commun. 2019, 99, 56-60.
16. Solid Contact Ion Selective Electrodes for In Situ Measurements at High Pressure. Weber, A.W.; O'Neil, G.D.; Kounaves, S.P. Anal. Chem. 2017, 89, 4803–4807.
From Ph.D. and Postdoc
15. Scanning Line Probe Microscopy: Beyond the Point Probe. O'Neil, G.D.; Kuo, H.-W.; Lomax, D.; Wright, J.N.; Esposito, D.V. Anal. Chem. 2018, 90, 11531–11537
14. Membraneless Electrolyzers for the Simultaneous Production of Acid, Base, Oxygen, and Hydrogen. Talabi, O.; Dorfi, A.E.; O'Neil, G.D.; Esposito, D.V. Chem. Commun. 2017, 53, 8006-8009.
13. Scalable Hydrogen Production with a 3D-printed Membrane-less Water Electrolyzer. O’Neil, G.D.; Christian, C.; Brown, D.; Esposito, D.V. J. Electrochem. Soc. 2016, 163, F3012-F3019.
12. Methods of Photoelectrode Characterization with High Spatial and Temporal Resolution. Esposito, D.V.; Baxter, J.; John, J.; Lewis, N.S.; Moffat, T.P.; Ogitsu, T.; O’Neil, G.D.; Pham, T.A.; Talin, A.A.; Valazquez, J.; Wood, B. Energy Environ. Sci., 2015, 8, 2863-2885.
11. Direct Identification and Analysis of Heavy Metals in Solution (Hg, Cu, Pb, Zn, Ni) by Use of in Situ Electrochemical X-ray Fluorescence. O’Neil, G.D.; Newton, M.E.; Macpherson, J.V. Anal. Chem 2015, 87, 4933-4940.
10. The Use of Graphene Oxide as a Fixed Charge Carrier in Ion-Selective Electrodes. O’Neil, G.D.; Fouskaki, M.; Kounaves, S.P.; Chaniotakis, N.A. Electrochem. Commun. 2015, 55, 51-54.
9. Exoterrestrial Electrochemistry. McElhoney, K.M.; O’Neil, G.D.; Kounaves, S.P. in Environmental Analysis with Electrochemical Sensors and Biosensors. Ed. By Ligia M. Moretto and Kurt Kalcher. Springer: New York, 2014, 131-151.
8. The Electrochemistry of Aqueous Colloidal Graphene Oxide on Pt Electrodes. O’Neil, G.D.; Weber, A.W.; Buiculescu, R.; Chaniotakis, N.A.; Kounaves, S.P. Langmuir 2014, 30, 9599-9606.
7. Electrochemical X-Ray Fluorescence Spectroscopy (EC-XRF) for Trace Heavy Metal Analysis: Enhancing XRF Detection Capabilities by Four Orders of Magnitude. Hutton, L.A.; O’Neil, G.D.; Read, T.L.; Ayres, Z.; Newton, M.; Macpherson, J.V. Anal. Chem. 2014, 86, 4566–4572.
6. Identification of the perchlorate parent salts at the Phoenix Mars landing site and possible implications. Kounaves, S.P.; Chaniotakis, N.A.; Chevrier, V.F.; Carrier, B.L.; Folds, K.E.; Hansen, V.M.; McElhoney, K.M.; O’Neil, G.D.; Weber, A.W. Icarus 2014, 232, 226-231.
5. Evidence of martian perchlorate, chlorate, and nitrate in Mars meteorite EETA79001: Implications for oxidants and organics. Kounaves, S.P.; Carrier, B.L.; O’Neil, G.D.; Stroble, S.T.; Claire, M.W. Icarus 2014, 229, 206-213.
4. Stability and Lifetime of Potassium Solid-Contact Ion Selective Electrodes for Continuous and Autonomous Measurements. McElhoney, K.M.; O’Neil, G.D.; Chaniotakis, N.A.; Kounaves, S.P. Electroanalysis 2012, 24, 2071-2078.
3. Carbon Nanofiber Based Nanocomposite as a Highly Stable Solid-State Junction for Reference Electrodes. O’Neil, G. D.; Buiculescu, R.; Kounaves, S. P.; Chaniotakis, N.A. Anal. Chem. 2011, 83, 5749-5753.
patents.
2. Non-local Scanning Probes for Scanning Probe Microscopy. Esposito, D.V.; O'Neil, G.D.; Wright, John; Kuo, H.-W.; Dorfi, A.E. 2020, US Patent #10,739,378.
1. Membraneless Electrochemical Flow-Through Reactor. Esposito, D.V.; O'Neil, G.D. 2020, US Patent #10,844,494