102) Nanoparticles Captured by Positive Dielectrophoresis in Gradient Microdevice. Alex Ramirez, Scott Sayres and Mark A. Hayes* Langmuir 2023, in preparation (June 2023).

101) A Numerical Study on Microfluidic Devices to Maintain the Concentration and Purity of Dielectrophoresis induced Separated Fractions of Analyte. A K M Fazlul Karim Rasel, Sean L Seyler, Mark A. Hayes* Analytical and Bioanalytical Chemistry 2023, 415(20) 4861-73 doi: 10.1007/s00216-023-04795-4. Preprint

100) Biophysical identification of sub-populations of insulin granules from beta cells. Yameng Liu, Mahta Barekatain, Scott Fraser and Mark A. Hayes* eLife 2022, submitted (May 2023) Preprint; also posted on bioRxiv.

99) Interfacing microfluidics with information-rich detection systems for cells, bioparticles, and molecules. Smithers JP, Hayes MA. Analytical and Bioanalytical Chemistry 2022, 414(16) 4575-89 DOI 10.1007/s00216-022-04043-1. Preprint

98) Orders of magnitude larger force demonstrated for dielectrophoresis of proteins enabling high resolution separations based on new mechanism. Yameng Liu and Mark A. Hayes* Analytical Chemistry 2021, 93(3), 1352-1359 DOI: 10.1021/acs.analchem.0c02763. Preprint

97a) COVER Editorial Bioanalytics and Higher Order Electrokinetics. Mark A. Hayes and Federica Caselli Analytical and Bioanalytical Chemistry 2020, 412(16), 3799-3800 DOI: 10.1007/s00216-020-02694-6

97) Feature Article: Dielectrophoresis of Proteins: Experimental Data and Evolving Theory. Mark A. Hayes. Analytical and Bioanalytical Chemistry 2020, 412(16) 3801-3811 DOI: 10.1007/s00216-020-02623-7. Preprint

96) Differential Biophysical Behaviors of Closely Related Strains of Salmonella. Yameng Liu and Mark A. Hayes* Frontiers Microbiology 2020, 11, 302  DOI: 10.3389/fmicb.2020.00302. Preprint

95) COVER Biophysical Differentiation of Susceptibility and Chemical Differences in Staphylococcus aureus. Shannon Huey Hilton, Claire V. Crowther, Alex McLaren, Jared P. Smithers & Mark A. Hayes* Analyst, 2020, 145, 2904-2914 DOI: 10.1039/C9AN01449G. Preprint

94) Effects of Surface Treatments on Trapping with DC Insulator-based Dielectrophoresis. Claire V. Crowther, Viola Sanderlin, Gillian H. Gile* & Mark A. Hayes* Analyst 2019, 144, 7478-7488 DOI: 10.1039/C9AN01186B. Article

93) Measurements of Adsorption Thermodynamics at Electrified Liquid-Solid Interfaces by Electrochemically Modified Liquid Chromatography. Lisa M. Ponton, David W. Keller, Lorriane M. Siperko, Mark A. Hayes, and Marc D. Porter* J. Phys. Chem. 2019, 123(46), 28148-28157 DOI: 10.1021/acs.jpcc.9b07717. Article

92) Electrophoretic Exclusion Microscale Sample Preparation for Cryo-EM Structural Determination of Proteins. Fanyi Zhu, Brent Nannenga & Mark A. Hayes* Biomicrofluidics  2019, 13(5), 054112 DOI: 10.1063/1.5124311. Article

91) Electrochemically modulated liquid chromatography in fused silica capillary columns. Robert J. Soto, Mark A. Hayes and Marc D. Porter* Anal. Chem. 2019, 91 (21), 13994-14001 DOI: 10.1021/acs.analchem.9b03581.  Article

90) Identification of Neural Stem and Progenitor Cell Subpopulations using DC Insulator-based Dielectrophoresis. Yameng Liu, Alan Jiang, Estelle Kim, Clarissa Ro, Tayloria Adams, Lisa A. Flanagan, Thomas J. Taylor & Mark A. Hayes* Analyst 2019, 144, 4066 - 4072 PMI:31165125 PMC6636350 DOI: 10.1039/c9an00456d. Article

89)  Isolation and Identification of Listeria monocytogenes Utilizing DC Insulator-based Dielectrophoresis. Claire V. Crowther, Shannon H. Hilton, Laketa Kemp, Mark A. Hayes* Analytica Chimica Acta 2019, 1068, 41-51 PMC 8512856 https://doi.org/10.1016/j.aca.2019.03.019. Article

88) A Mathematical Model of Dielectrophoretic Data to Connect Measurements with Cell Properties. Shannon Huey Hilton and Mark A. Hayes* Analytical and Bioanalytical Chemistry 2019, 411(10), 2223–2237 DOI: 10.1007/s00216-019-01757-7. Article

87) Simulation and Experiment of Asymmetric Electrode Placement for Electrophoretic Exclusion in a Microdevice. Fanyi Zhu and Mark A. Hayes Electrophoresis 2019, 40(2), 304-314 http://dx.doi.org/10.1002/elps.201700497. Article

86) Biofluid pretreatment using gradient insulator-based dielectrophoresis: separating cells from biomarkers. Jie Ding, Christine Woolley, Mark A. Hayes Analytical and Bioanalytical Chemistry 2017, 409, 6405-6414 DOI: 10.1007/s00216-017-0582-5. 

85) Refinement of Insulator-based Dielectrophoresis. Claire V. Crowther and Mark A. Hayes* Analyst 2017, 142, 1608-1618 DOI: 10.1039/c6an02509a. article 

84) Exploring Gradients in Electrophoretic Separation and Preconcentration on Miniaturized Devices. Fanyi Zhu and Mark A. Hayes * Chromatography 2016, 3(2) Article 12, DOI: 10.3390/separations3020012. Article

83) Concentration of Sindbis Virus with Optimized Gradient Insulator-based Dielectrophoresis. Jie Ding, Robert Lawrence, Paul V. Jones, Brenda G. Hogue, and Mark A. Hayes* Analyst 2016, 141, 1997-2008 DOI: 10.1039/C5AN02430G. article 

82) Biophysical Separation of Staphylococcus epidermidis Strains Based on Antibiotic Resistance. Paul V. Jones, Shannon Huey, Paige Davis, Ryan McLemore, Alex McLaren, Ryan Yanashima, and Mark A. Hayes*Analyst 2015, 140, 5152-5161. DOI: 10.1039/C5AN00906E. article 

81) Sensitive Detection of Cardiac Biomarkers Using a Magnetic Microbead Immunoassay. Christine F. Woolley and Mark A. Hayes* Analytical Methods 2015, 7, 8632-8639 DOI: 10.1039/C5AY01071C. article. 

80) Theoretical Limitations of Quantification for Noncompetitive Sandwich Immunoassays. Christine F. Woolley and Mark A. Hayes* Prasun Mahanti, S Douglass Gilman, Tom Taylor Anal. Bioanal. 2015, 407(8), 8605-8615, DOI: 10.1007/s00216-015-9018-2. article 

79) Development of the Resolution Theory for Gradient insulator-based Dielectrophoresis. Mark A. Hayes & Paul V. Jones Electrophoresis 2015, 36(9-10), 1098-1106, DOI: 10.1002/elps.201400504. Article

78) Emerging Technologies for Biomedical Analysis. Christine F. Woolley and Mark A. Hayes* Analyst 2014, 139(10), 2277-2288 DOI: 10.1039/c4an00259h preprint 

77) Ground level environmental protein concentrations in various ecuadorian environments: potential uses of aerosolized protein for ecological research. Sarah J.R. Staton, Andrea Woodward, Josemar A. Castillo, Kelly Swing, Mark A. Hayes Ecological Indicators, 2014, 48, 389-395 DOI: 10.1016/j.ecolind.2014.08.036. article 

76) Development of the Resolution Theory for Electrophoretic Exclusion. Stacy M. Kenyon, Michael W. Keebaugh, & Mark A. Hayes Electrophoresis, 2014, 35, 2551-2559 DOI 10.1002/elps.201300572. article 

75) Simulation and visualization of velocity fields in simple electrokinetic devices. Prasun Mahanti*, Thomas Taylor, Douglas Cochran, Michael Keebaugh, and Mark A. Hayes Proceedings of Visualization and Data Analysis (VDA 2014) 2014, 10th annual, paper 9017-21, http://vda-conference.org/program.html

74) Differentiation of Escherichia coli serotypes using DC gradient insulator dielectrophoresis. Paul V. Jones, Alexa F. DeMichele, LaKeta Kemp, and Mark A. Hayes Anal. Bioanal. 2014, 406(1), 183-192 DOI: 10.1007/s00216-013-7437-5. article 

73) Recent developments in micro-immunoassays: varied methods and their utility in clinical testing. Christine F. Woolley and Mark A. Hayes Bioanalysis, 2013, 5(2), 245-264. article 

72) Identifying indoor environmental patterns from bioaerosol material using HPLC. Sarah J. R. Staton, Josemar A. Castillo, Thomas J. Taylor, Pierre Herckes and Mark A. Hayes* Anal. Bioanal. 2013, 405(1), 352-357. DOI: 10.1007/s00216-012-6495-4. article 

71) Cutting a drop of water pinned by wire loops using a superhydrophobic surface and knife. Ryan Yanashima, Antonio A. García, James Aldridge, Noah Weiss, Mark A. Hayes, James H. Andrews PLoS ONE, 2012, 7(9): e45893. doi:10.1371/journal.pone.0045893. article 

70) Manipulation and capture of Aß amyloid fibrils and monomers by DC insulator gradient dielectrophoresis (DC-iGDEP), Sarah J. R. Staton, Paul V. Jones, Ginger Ku, S. Douglass Gilman, Indu Kheterpal, and Mark A. Hayes* Analyst, 2012, 137(14), 3227-3229 DOI:10.1039/C2AN35138B. article 

69) Quantitative assessment of flow and electric fields for electrophoretic focusing at a converging channel entrance with interfacial electrode. Michael Keebaugh, Prasun Mahanti, Mark Hayes, Electrophoresis, 2012, 33(13), 1924-1930. DOI: 10.1002/elps.201200199. article 

68) Exploring the feasibility of bioaerosol analysis as a novel fingerprinting technique. Josemar A. Castillo, Sarah J. R. Staton, Thomas J. Taylor, Pierre Herckes, Mark A. Hayes* Anal. Bioanal. 2012, 403(1), 15-26. DOI: 10.1007/s00216-012-5725-0, PMID: 22311424. article 

67) Using Electrophoretic Exclusion to Manipulate Small Molecules and Particles on a Microdevice. Stacy M. Kenyon, Noah G. Weiss, & Mark A. Hayes Electrophoresis, 2012, 33, 1227-1235, DOI 10.1002/elps.201100622. article 

66) Presssure-Assisted Electrokinetic Supercharging for the Enhancement of Non-Steroidal Anti-Inflammatory Drugs. Michelle M. Meighan, Mohamed Dawod, Michael C. Breadmore, Roseanne Guijt, Mark A. Hayes. Journal of Chromatography A, 2011, 1218 6750-6755, PMID: 21855878 

65) Dielectrophoretic mobility determination in DC insulator-based dielectrophoresis. Noah G. Weiss, Paul V. Jones, Prasun Mahanti, and Mark A. Hayes* Electrophoresis, 2011, 32, 2292-2297, PMID: 21823129. article

64) Blood cell capture in a gradient dielectrophoretic microchannel. Paul V. Jones, Sarah J. R. Staton, and Mark A. Hayes* Anal. Bioanal. 2011, 401, 2103-2111, PMID: 21830138. article 

63) (invited) Recent developments in electrophoretic separations on microfluidic devices. Stacy M. Kenyon, Michelle M. Meighan & Mark A. Hayes* Electrophoresis 2011, 32(5), 482-493, DOI: 10.1002/elps.201000469. PMID: 21290388. article 

62) Examining serum amyloid P component microheterogeneity using capillary isoelectric focusing and MALDI-MS. Noah G. Weiss, Jason W. Jarvis, Randall W. Nelson, & Mark A. Hayes* Proteomics 2011, 11, 106-113. PMID: 21182198. article 

61) Isoelectric Focusing in a Drop. Noah G. Weiss, Mark A. Hayes, Antonio A. Garcia, and Rafat R. Ansari Langmuir 2011, 27(1), 494-498, DOI: 10.1021/la104085t (2010 web pub), PMID: 21117663. article 

60) Investigation of electrophoretic exclusion method for the concentration and differentiation of proteins. Michelle M. Meighan, Jared Vasquez, Luke Dziubcynski, Sarah Hews, and Mark A. Hayes* Anal. Chem. 2011, 83, 368-373, DOI: 10.1021/ac1025495. PMID: 21141826. article 

59) Improved detectability and signal strength for rotating phase fluorescence immunoassays through image processing. Prasun Mahanti*, Thomas Taylor*, Mark A Hayes*, Douglas Cochran, Matthew M. Petkus Analyst 2011, 136, 365-373, DOI 10.1039/C0AN00549E. 

58) Characterization of particle capture in a sawtooth patterned insulating electrokinetic microfluidic device. Sarah J. R. Staton, Kang Ping Chen, Thomas J. Taylor, Jose Rafael Pacheco, & Mark A. Hayes*. Electrophoresis 2010, 31, 3634-3641, doi 10.1002/epls.201000438. article 

57) cIEF coupled offline to MALDI-MS with syringe pump mobilization (technical note). Noah G. Weiss, Nicole L. Zwick, & Mark A. Hayes* Journal of Chromatography 2010, 1217(1), 179-182. article

56) Bionanotubules formed from liposomes. In Methods in Enzymology: Liposomes, Part F, vol. 464, Nejat Duzgunes ed., Josemar Castillo, M. A. Hayes*, 2009, Chapter 16, pages 327-342.

55) Electrophoretic Exclusion for the Selective Transport of Small Molecules. Michelle M. Meighan, Michael W. Keebaugh, Alicia M. Quihuis, Stacy M. Kenyon, and Mark A. Hayes* Electrophoresis 2009, 30, 3786-3792. article 

54) Insulator-based dielectrophoretic separation of small particles in a sawtooth channel. Kang Pang Chen* J. R. Pacheco, M. A. Hayes, S. J. R. Staton Electrophoresis 2009, 30, 1441-1448. article 

53) Review: Bioanalytical Separations using Electric Field Gradient Techniques. Michelle M. Meighan, Sarah J. R. Staton and Mark A. Hayes* Electrophoresis 2009, 30, 852-865. article 

52) Demonstration of Sandwich and Competitive Modulated Supraparticle Fluoroimmunoassay Applied to Cardiac Protein Biomarker Myoglobin. M. A. Hayes*, M. M. Petkus, A. A. Garcia, T. Taylor, and P. Mahanti The Analyst 2009, 134(3), 533-541. article 

51) Bionanotubule formation from surface-attached liposomes using electric fields. Josemar A. Castillo, Daniel M. Narciso, and Mark A. Hayes* Langmuir 2009, 25(1), 391-396.

50) Improved Signal Extraction from Fluorescence Immunoassay Image Sequences. Prasun Mahanti*, Thomas Taylor, Douglas Cochran, Mark Hayes and Mathew Petkus IEEE Proceedings Asilomar Conference on Signals, Systems, and Computers 2008 (Asilomar, CA Nov.), pp 88-91.

49) Chaotic mixing enhancement in electro-osmotic flows by random period modulation. J. Rafael Pacheco*, Kangpang Chen and Mark A. Hayes Physics Letters A 2008, 372(7), 1001-1008. article 

48) Dynamics of Rotating Paramagnetic Particle Chains Simulated by Particle Dynamics, Stokesian Dynamics and Lattice Boltzmann Methods S. Krishnamurthy, A. Yadav, R. Calhoun, P.E. Phelan*, A.K. Vuppu, A.A. Garcia and M. A. Hayes Microfuidics and Nanofluidics 2008, 5, 33-41.

47) Liposomes form nanotubules and long range networks in the presences of electric field. Mark A. Hayes*, Michele D. Pysher and Kang Ping Chen J. Nanosci. Nanotech. 2007, 7(7), 2283-2286.

46) Photon control of liquid motion on reversibly photoresponsive surfaces. Dongqing Yang, Marcin Piech, Nelson S. Bell, Devens Gust, Sean Vail, Antonio A. Garcia, John Schneider, Choong-Do Park, Mark A. Hayes, S. Tom Picraux Langmuir 2007, 23 (21), 10864-10872. article 

45) Evaporative Properties and Pinning Strength of Laser-Ablated, Hydrophilic Sites on Lotus Leaf-Like, Fractal Surfaces. Melissa L. McLauchlin, Mark A. Hayes*, S. Tom Picraux, Antonio A. Garcia, Dongqing Yang Langmuir 2007, 23, 4871-4877.

44) Examination of Nonendocytotic Bulk Transport of Nanoparticles across Phospholipid Membranes, Shayla K. Banerji and Mark A. Hayes* Langmuir 2007, 23 (6): 3305-3313.

43) Electrophoretic and Dielectrophoretic field gradient techniques for separation bioparticles. Michele D. Pysher, Mark A. Hayes* Anal. Chem. 2007, 79, 4552-4557. article 

42) Magnetic Movement of Biological Fluid Droplets. Antonio A.Garcia, Ana Egatz-Gomez, Solitaire A. Lindsay, P. Dominguez-Garcia, Sonia Melle, Mauel M. Marquez, Miguel A. Rubio, S. Tom Picraux, Dongqing Yang, P. Aella, Mark A. Hayes, Devens Gust, Suchera Loyprasert, Terannie Vazquez-Alvarez, Joeseph Wang Journal of Magnetism and Magnetic Materials 2007, 311(1), 238-243.

41) A Study on the Condition for Differential Electrophoretic Transport at a Channel Entrance. J. Rafael Pacheco, Kang Ping Chen* and M. A. Hayes Electrophoresis, 2007, 28, 1027-1035.

40) Cleavage of Peptides and Proteins Using Light Generated Radicals, Barbara J. Jones, Matthew J. Vergne, David M. Bunk, Laurie E. Locascio, and Mark A. Hayes* Anal. Chem. 2007, 79, 1327-1332.

39) Photo-, thermally-, and pH-responsive microgels, Antonio Garcia* Manuel Marquez, Tong Cai, Rohit Rosario, Zhibing Hu,* Devens Gust, Mark Hayes, Sean A. Vail, and Choong-Do Park. Langmuir, 2007, 23(1), 224-229.

38) Dynamics of rotating paramagnetic particles simulated by lattice Boltzmann and particle dynamics methods A. Yadav, R. Calhoun, P.E. Phelan, A.K. Vuppu, A.A. Garcia and M. Hayes IEEE Proceedings – Nanobiotechnology 2006, 153(6) 145-150.

37) Discrete Magnetic Microfluidics, Ana Egatz-Gómez, Sonia Melle, Antonio A. García, S. A. Lindsay, and M. Márquez, P. Domínguez-García and Miguel A. Rubio, S. T. Picraux, J. L. Taraci, T. Clement, and D. Yang, Mark A. Hayes and Devens Gust, App. Phys. Let. 2006, 89, 034106-1 to 034106-3.

36) Rapid and Efficient Mixing in a Slip-Driven Three-Dimensional Flow in a Rectangular Channel. J. Rafael Pacheco*, Kang Ping Chen and M. A. Hayes. Fluid Dynamics Research 2006, 38(8), 503-521.

35) Detection of FITC-cortisol via Molecular Light Houses. Matthew Petkus, A. Vuppu, L. Rios, Antonio A. Garcia, M. A. Hayes* Anal. Chem. 2006, 78, 1405-1411.

34) Multiplexed DNA Sequencing-by-Synthesis, Sergei A. Aksyonov, Michael Bittner, Linda B. Bloom, Linda J. Reha-Krantz, Ian R. Gould, Mark A. Hayes, Urban A. Kiernan, Eric E. Niederkofler, Vincent Pizziconi, Raul S. Rivera, Daniel J.B. Williams, Peter Williams* Anal. Biochem. 2006, 348, 127-138.

33) Paramagnetic Particles and Mixing in Micro-Scale Flows. Ron Calhoun,* A. Yadav, P. Phelan, A. Vuppu, A. Garcia, and M. Hayes Lab on a Chip, 2006, 6, 247-257.

32) CFD Analysis of Paramagnetic Particle Containment in Microwells. Ron Calhoun*, Richard Waskowsky, Patrick Phelan, Antonio Garcia, M. A. Hayes, Anil Vuppu Lab on a Chip, 2005, 5, 1075-1082.

31) Effects of Deformability, Uneven Surface Charge Distributions, and Multipole Moments on Biocolloid Electrophoretic Migration. Michele D. Pysher, M. A. Hayes* Langmuir, 2005, 21, 3572-3577. article 

30) Analysis of Human Blood Serum Using the Off-Line Coupling of Capillary Isoelectric Focusing to Matrix Assisted Laser Desorption/Ionization Time of Flight Mass Spectrometry. Timothy Crowley, M. A. Hayes* Proteomics, 2005, 5(14), 3798-3804.

29) Phase Sensitive Enhancement for Biochemical Detection Using Rotating Paramagnetic Particle Chains. Anil K. Vuppu, Antonio A. Garcia, Mark A. Hayes, Karl S. Booksh, Patrick E. Phelan, Ronald Calhoun, S. K. Saha Journal of Applied Physics, 2004, 96 (11), 6831-6838. DOI: 10.1063/1.1809269. 

28) Comprehensive Theoretical Study of the Conversion Reactions of Spiropyrans: Substituent and Solvent Effects. Y. H. Sheng, J. Leszczynski*, Antonio A. Garcia, Rohit Rosario, Devens Gust, J. Springer Journal of Physical Chemistry B, 2004, 16233-16243. 

27) Lotus Effect Amplifies Light-Induced Contact Angle Switching. Rohit Rosario, J. D. Gust, A. A. Garcia, M. A. Hayes, J. L. Taraci, T. Clement, J. W. Dailey and S. T. Picraux* J. Phys. Chem. B, 2004, 108, 12640-12642. article 

26) Modeling microflow and stirring around a microrotor in creeping flow using a quasi-steady-state analysis. Vuppu AK, Garcia AA, Saha SK, Phelan PE, Hayes MA, Calhoun R Lab on a Chip, 2004, 4(3), 201-208.

25) Examination of the Electrophoretic Behavior of Liposomes. M. D. Pysher, and M. A. Hayes* Langmuir, 2004, 20, 4369-4375. article

24) Solvatochromic study of the microenvironment of surface bound spiropyrans. Rohit Rosario, J. D. Gust, M. A. Hayes, A. A. Garcia* Langmuir, 2003, 8801-8806.

23) Direct Observation of Photo-Switching in Tethered Spiropyrans Using the Interfacial Force Microscope. B. C. Bunker, B. I. Kim, J. E. Houston, R. Rosario, A. A. Garcia, M. Hayes, D. Gust, and S. T. Picraux* Nano Letters, 2003, 1723-1727. article 

22) Microfluidics for Ultrasmall-Volume Biological Analyses. in Advances in Chromatography, vol. 42, Phyllis R. Brown & Eli Grushka eds., T. O. Windman, B. J. Wyatt, M. A. Hayes*, 2003, Chapter 5, pages 241-268. article

21) Video microscopy of dynamically aggregated paramagnetic particle chains in an applied rotating magnetic field Anil K. Vuppu, Antonio A. Garcia*, M. A. Hayes Langmuir, 2003, 19(21), 8646-8653. article

20) Photon-Modulated Wettability Changes on Spiropyran Coated Surfaces. R. Rosario, D. Gust, M. A. Hayes, F. Jahnke, A. A. Garcia* Langmuir, 2002, 18(21), 8062-8069. article 

19) The Effects of pH Gradients on Liposomal Charge States Examined by Capillary Electrophoresis. A. N. Phayre, H. M. Vanegas Farfano, M. A. Hayes* Langmuir, 2002, 6499-6503. article 

18) Examination of Theoretical Models in External Voltage Control of Capillary Electrophoresis. N. K. Hartley, M. A. Hayes* Anal. Chem. 2002, 74, 1249-1255. article 

17) Flow Based Microimmunoassay. M. A. Hayes*, N. A. Polson, A. N. Phayre, A. A. Garcia Anal. Chem. 2001, 73, 5896-5902. article 

16) Controlling Fluids in Small Places: Microfluidics. N. A. Polson, M. A. Hayes* Anal. Chem. 2001, 73, 321A-319A.

15) Active Control of Dynamic Supraparticle Structures in Microchannels. M. A. Hayes*, N. A. Polson, A. A. Garcia Langmuir 2001, 17 (9), 2866 -2871. article 

14) Microdevices for Biological Analyses: Recent Advances and Directions for the Future. A. N. Phayre, N. K. Hartley, M. A. Hayes* Jour. Assoc. Lab. Auto. 2000, 5, 78-82. article 

13) Photon-controlled Phase Partitioning of Spiropyrans. Antonio A. Garcia, S. Cherian, J. Park, Devens Gust, Frank Jahnke, Rohit Rosario Journal of Physical Chemistry A, 2000, 104(26), 6103-6107.

12) Heat Index Flow Monitoring in Capillaries with Interferometric Backscatter Detection. J. C. St Claire, M. A. Hayes* Anal. Chem. 2000, 72, 4726-4730. article 

11) Electrophoretic Focusing Preconcentration Technique in Continuous Buffer Systems Employing Capillary Electrophoresis Separation Systems. N. A. Polson, D. P. Savin, M. A. Hayes* J. Microcol. Separa. 2000, 12, 98-106.

10) Electroosmotic Flow Control of Fluids on a Capillary Electrophoresis Microdevice using an Applied Radial Voltage. N. A. Polson, M. A. Hayes* Anal. Chem. 2000, 72, 1088-1092. article

9) Extension of External Voltage Control of Electroosmosis to High pH Buffers. M. A. Hayes* Anal. Chem. 1999, 71, 3793-3798. article 

8) Preservation of NADH Voltammetry for Enzyme-Modified Electrodes Based on Dehydrogenase. M. A. Hayes*, W. G. Kuhr Anal. Chem. 1999, 71, 1720-1727. article

7) Background-Subtraction of Fast-Scan Cyclic Staircase Voltammetry at Protein-Modified Carbon-Fiber Electrode. M. A. Hayes*, E. Kristenson, W. G. Kuhr Biosensors & Bioelectronics, 1998, 13, 1297-1305. article

6) Prospects for the use of Capillary Electrophoresis in Neuroscience. M. A. Hayes, S. D. Gilman, A. G. Ewing* In Capillary Electrophoresis Technology; N. A. Guzman, Ed.; Marcel Dekker, NY; 1994.

5) Electroosmotic Flow Control and Surface Conductance in Capillary Zone Electrophoresis, M. A. Hayes, I. Kheterpal, A. G. Ewing* Anal. Chem.1993, 65, 2010-2013. article

4) Effects of Buffer pH on Electroosmotic Flow Control by an Applied Radial Voltage for Capillary Zone Electrophoresis, M. A. Hayes, I. Kheterpal, A. G. Ewing* Anal. Chem. 1993, 65, 27-31. article

3) Electroosmotic Flow Control and Monitoring with an Applied Radial Voltage for Capillary Zone Electrophoresis, M. A. Hayes, A. G. Ewing* Anal. Chem. 1992, 64, 512-516. article

2) Trace Analysis in the Food and Beverage Industry by Capillary Gas Chromatography: System Performance and Maintenance, M. A. Hayes* J. Chromatogr. Sci. 1988, 26, 146. article

1) Column Considerations When Doing Trace Analysis on Open Tubular Columns, R. R. Freeman, M. A. Hayes* J. Chromatogr. Sci. 1988, 26,138-145. article

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