Publications:
18) Electroconductive nylon-6/multi-walled carbon nanotube nanocomposite for sodium sensing applications, D. Jaffal*, S. Daniels*, H.Y. Tang*, H. Ghadimi, C.N. Monty, ¿Electroconductive nylon-6/multi-walled carbon nanotube nanocomposite for sodium sensing applications,¿ Composites Part C: Open Access, In press
17) A novel mechanism of microbially-induced carbon steel corrosion at an aqueous/non-aqueous interface, R.B. Miller*, A. Sadek*, A. Crouch, J. Floyd, C. Drake, B. Stevenson, W. Crookes-Goodson, C.N. Monty, J.M. Senko, Industrial & Engineering Chemistry Research (2020) https://doi.org/10.1021/acs.iecr.0c02497
16) Field Testing and Cost Benefit Evaluation of Corrosion Protective Coatings on Winter Maintenance Equipment in the State of Ohio, A.A. Rodriguez*, C.M. Miller, C.N. Monty, Journal of Cold Regions Engineering, (2020) DOI: 10.1061/(ASCE)CR.1943-5495.000023.
15) Uniform and pitting corrosion of carbon steel by Shewanella oneidensisMR-1 under nitrate-reducing conditions, R.B. Miller,* K. Lawson*, A. Sadek*, C.N. Monty, J.M. Senko, Applied and Environmental Microbiology (2018) https://doi.org/10.1128/AEM.00790-18
14) Laboratory techniques for evaluating the effectiveness of salt neutralizers for the corrosion prevention of winter maintenance equipment, A.A. Rodriguez*, C.M. Miller, H. Cong, E. K. Wujcik*, C.N. Monty, Anti-Corrosion Methods and Materials, (2016) Vol. 63 (6), 499-507.
13) Microbial reduction of Cr(VI) in the presence of chromate conversion coating constituents, R.B. Miller II*, C. Giai, M. Iannuzzi, C.N. Monty, and J.M. Senko, ¿,¿ Bioremediation Journal, (2016), 20 (3), 174-182.
12) Corrosion assessment of UNSG10180 via Split Cell Technique exposed to Shewanella oneidensis, R.B. Miller*, A. Sadek*, A.A. Rodriguez*, M. Iannuzzi, C. Giai, J.M. Senko, C.N. Monty, PLOSONE, (2016), http://dx.doi.org/10.1371/journal.pone.0147899
11) A visible colorimetric sensor based on nanoporous polypropyelene fiber membranes for the determination of trihalomethanes in treated drinking water, E.K. Wujcik*, S.E. Duirk, G.G. Chase, and C.N. Monty, Sensors and Actuators B (2016) 223, 1-8.
10) A Non-biological Inhibition Based Sensing (NIBS) Technique for the Detection of Toxic Halogenated Organics in Water, I.Afreh*, E.K. Wujcik*, N.J. Blasdel*, B.Sauer*, S.Kaya*, S.Duirk, C.N.Monty, Journal of Analytical Chemistry (2015) 70 (7), 825-830.
9) Fabric Nanocomposite Resistance Temperature Detector, N.J. Blasdel*, E.K. Wujcik*, J. Carletta, K.S. Lee, C.N. Monty, IEEE Sensors Journal (2015) 15(1).
8) Ion Sensor for the Quantification of Sodium in Sweat Samples, E.K. Wujcik*, N.J. Blasdel*, D. Trowbridge*, C.N. Monty, IEEE Sensors Journal (2013) 13(9), 3430-3436.
7) Nanotechnology for implantable sensors: carbon nanotubes and graphene in medicine, E.K. Wujcik*, C.N. Monty, WILEY INTERDISCIPLINARY REVIEWS-NANOMEDICINE AND NANOBIOTECHNOLOGY (2013) 5(3), 233-249.
6) An Acetylcholinesterase-Inspired Biomimetic Toxicity Sensor, E.K. Wujcik*, N. Londono, C.N. Monty, S.E. Durik, R.I. Masel, Chemosphere, (2013) 91(8), 1176-1182.
5) Non-biological inhibition-based sensing (NIBS) demonstrated for the detection of toxic arsenic compounds, C.N. Monty, N. Londoño, and R.I. Masel, Chemosphere (2011) 82, 1644-1648.
4) Optimization of a Multi-phase Sensor for Detection of Phosphonates in Air, C. N. Monty, I. Oh, and R. I. Masel, AIChE Journal (2010) 56, 241-247.
3) Non-biological Inhibition Based Sensing (NIBS) Demonstrated for the Detection of Toxic Sulfides, C.N. Monty, N. Londoño, and R.I. Masel, Analytical Chemistry (2009) 81(15), 6416-6421.
2) Acetylcholinesterase-based Electrochemical Multiphase Microreactor for Detection of Trace Toxic Vapors, C. N. Monty, I. Oh, and R. I. Masel, IEEE Sensors (2008) Vol. 8(5), 580-585.
1) Electrochemical Multiphase Microreactor as Fast, Selective, and Portable Chemical Sensor of Trace Toxic Vapors, I. Oh, C. N. Monty, and R. I. Masel, IEEE Sensors (2008) Vol. 8(5), 2008, 522-526.