Google Scholar page.

Undergraduate co-authors are underlined; equal contribution indicated by *.

23. K Rodogiannis, JT Duong, and ML Kovarik, “Microfluidic single-cell analysis of oxidative stress in Dictyostelium discoideum,” Analyst, 2018, doi: 10.1039/C8AN00752G. [link]

22. ML Kovarik, CR Harrison, and TJ Wenzel, “Successfully navigating the early years of a faculty position,” Analytical and Bioanalytical Chemistry, 2018, 410, 1855-1861. [link]

21. AJ Tierney, N Pham, K Yang, BK Emerick, and ML Kovarik, “Interspecies comparison of peptide substrate reporter metabolism using compartment-based modeling,” Analytical and Bioanalytical Chemistry, 2017, 409, 1173-1183. [link]

20. ML Kovarik, “Use of primary literature in the undergraduate analytical class,” Analytical and Bioanalytical Chemistry, 2016, 408, 3045-3049. [link]

19. L Shehaj, L Lazo de la Vega, ML Kovarik, “Microfluidic Chemical Cytometry for Enzyme Assays of Single Cells,” Chapter 15 in Single Cell Protein Analysis: Methods and Protocols, eds. A Singh and A Chandrasekaran, vol. 1346, Methods in Molecular Biology, Humana Press, 2015. [link]

18.    ML Kovarik, “Analytical chemistry research at primarily undergraduate institutions: training tomorrow’s investigators,” Analytical Methods, 2015, 7, 6960-6966. [link]

17.    ML Kovarik, AJ Dickinson, P Roy, RA Poonnen, JP Fine, and NL Allbritton, “Response of single leukemic cells to peptidase inhibitor therapy across time and dose using a microfluidic device,” Integrative Biology20146, 164-174. [link]

16.    ML Kovarik, PK Shah, PM Armistead, and NL Allbritton, “Microfluidic Chemical Cytometry of Peptide Degradation in Single Drug-Treated Acute Myeloid Leukemia Cells,” Analytical Chemistry, 2013, 85, 4991-4997. [link]

15.    ML Kovarik, DM Ornoff, AT Melvin, NC Dobes, Y Wang, AJ Dickinson,PC Gach, PK Shah, and NL Allbritton, “Micro Total Analysis Systems: Fundamental Advances and Applications in the Laboratory, Clinic, and Field,” Analytical Chemistry2013, 85, 451-472. [link] 

14.    ML Kovarik,  PC Gach, DM Ornoff, Y Wang, J Balowski, L Farrag, and NL Allbritton, “Micro Total Analysis Systems for Cell Biology and Biochemical Analysis,” Analytical Chemistry, 2012, 84, 516-540. [link]

13.    ML Kovarik, H.-H. Lai, JC Xiong, and NL Allbritton, “Sample transport and electrokinetic injection in a microchip device for chemical cytometry,” Electrophoresis, 2011, 32, 3180-3187. [link]

12.    ML Kovarik and NL Allbritton, “Measuring enzyme activity in single cells,” Trends in Biotechnology, 2011, 29, 222-230. [link]

11.    ML Kovarik, PJB Brown, DT Kysela, C Berne, AC Kinsella, YV Brun, and SC Jacobson, “A microchannel-nanopore device for bacterial chemotaxis assays,” Analytical Chemistry, 2010, 82, 9357–9364. [link]

10.    ML Kovarik, K Zhou,* and SC Jacobson, “Effect of conical nanopore diameter on ion current rectification,” Journal of Physical Chemistry B, 2009, 113, 15960-15966. [link]

9.      ML Kovarik and SC Jacobson, “Nanofluidics in lab-on-a-chip devices,” Analytical Chemistry, 2009, 81, 7133-7140. [link]

8.      K Zhou, ML Kovarik, and SC Jacobson, “Surface-charge-induced ion depletion and sample stacking near single nanopores in microfluidic devices,” Journal of the American Chemical Society, 2008, 130, 8614-8616. [link]

7.      ML Kovarik and SC Jacobson, “Integrated nanopore/microchannel devices for ac electrokinetic trapping of particles,” Analytical Chemistry, 2008, 80, 657-664. [link]

6.      ML Kovarik and SC Jacobson, “Attoliter-scale dispensing in nanofluidic channels,” Analytical Chemistry, 2007, 79, 1655-1660. [link]

5.      D Zhu, Z Mu, C Mooty, M Kovarik, and M Jay, “Suspensions of fluor-containing nanoparticles for quantifying β-emitting radionuclides in non-hazardous media,” Journal of Pharmaceutical Innovation, 2006, Sept/Oct, 76-82. [link]

4.      ML Kovarik and SC Jacobson, “Fabrication of three-dimensional micro- and nanoscale features with single-exposure photolithography,” Analytical Chemistry, 2006, 78, 5214-5217. [link]

3.      ML Kovarik, MW Li, RS and Martin, “Integration of a carbon microelectrode with a fabricated palladium decoupler for use in microchip capillary electrophoresis/electrochemistry,” Electrophoresis, 2005, 26, 202-210. [link]

2.      DM Spence, NJ Torrence, ML Kovarik, and RS Martin, “Amperometric determination of nitric oxide derived from pulmonary artery endothelial cells immobilized in a microchip channel,” Analyst, 2004, 995-1000. [link]

1.      ML Kovarik, NJ Torrence, DM Spence, and RS Martin, “Fabrication of carbon microelectrodes with a micromolding technique and their use in microchip-based flow analyses,”Analyst, 2004, 400-405. [link]