Publications
Peer reviewed Publications and Proceedings
[10] Sharma A, Maeke T, Wagler P, Funke D, Oehm J, Anamimoghadan O, Cronin L, McCaskill J S, "Integrating a supercapacitor for autonomous electrochemistry on microscopic electronic particles (lablets)" (preprint)
[9] Sharma A, Maeke T, Wagler P, McCaskil, J.S, "Bipolar activation of and communication with CMOS circuit chiplet microparticles (lablets) in external electric fields" (preprint)
[8] Sharma A, Tangen U, McCaskil, J.S, "Lead-controlled transport of combinatorial microdroplet trains exported from microfluidic chips" (in preparation)
[7] Strazek, L., Maeke, T., Funke, D., Sharma A., McCaskill J. S., Oehm, J., "A CMOS 16K microelectrode array as a docking platform for autonomous microsystems." Nordic Circuits and Systems Conference (NORCAS), 2016 (accepted).
[6] Funke, D., Mayr P., Maeke, T., McCaskill, J., Sharma, A., & Straczek, L., Oehm J. "Ultra low-power, -area and -frequency CMOS thyristor based oscillator for autonomous microsystems.", Analog Integrated Circuits and Signal Processing (2016), DOI : 10.1007/s10470-016-0799-9
[5] McCaskill, J., Maeke, T., Straczek, L., Oehm, J., Mayr, P., Sharma, A., Müller A., Packard,N., Rasmussen S. and Tangen U., "Microarray of programmable electrochemically active elements", ALife XV: The Fifteenth Internaitonal Conference on the Simulation and Synthesis of Living Systems (2016)
[4] Tangen, U., Minero, G.A.S., Sharma, A. Wagler, P.F., Cohen, R., Raz, O., Marx, T., ben Yehezkel T., and McCaskill, J.S. "DNA-library assembly programmed by on-demand nanoliter droplets from a custom microfluidic chip" Biomicrofluidics, 9(4):044103 (2015) . DOI: 10.1063/1.4926616
[3] Tangen, U., Sharma, A., Wagler, P.F., and McCaskill, J. S. “On demand nanoliter-scale microfluidic droplet dispensing and mixing using a passive microfluidic device" Biomicrofluidics, 9, 014119 (2015). http://www.ncbi.nlm.nih.gov/pubmed/25759752
[2] Sharma, A., & McCaskill, J. S. (2015) "Autonomous lablet locomotion and active docking by sensomotory electroosmotic drive". European Conference on Articial Life, York. DOI: 10.7551/978-0-262-33027-5-ch081
[1] Funke, D., Oehm, J., Mayr, P., Maeke, T., McCaskill, J., Sharma, A., & Straczek, L. (2015). "Ultra low-power, -area and -frequency CMOS thyristor based oscillator for autonomous microsystems." Nordic Circuits and Systems Conference (NORCAS): NORCHIP & International Symposium on System-on-Chip (SoC), 2015
Posters
[6] Fadeev, M., Sharma, A., Maeke, T., Willner, I., McCaskill J. S., Programmable spatial control of DNAzymes via metal ions on microelectrode array. 22nd International conference on DNA computing and Molecular Programming (2016).
[5] McCaskill, J.S., Maeke, T., Sharma, A., Wagler, P.F., Funke, D., Mayr, P. and Oehm, J. “MICREAgents: MIcroscopic Chemically Reactive Electronic Agents” 15th European Conference on Artificial Life, York (2015).
[4] Sharma, A., Maeke, T., Wagler, P.F., McCaskill, J.S., “Autonomous Programmable Electronic Particles” Truce Summer School on Unconventional Computation, Malaga, Spain (Sept, 2015).
[3] Tangen, U., Sharma, A., Maeke, T., Wagler, P., McCaskill, J.S. "On separation in microfluidic structures." MPI Winterseminar on 'Biophysical Chemistry', Klosters, Switzerland. (2013)
[2] Sharma, A., Minero, G.K.A., McCaskill, J.S. "Electronically controlled fast DNA switches in microfluidic devices.” 4th Junges Chemie Symposium, MPI Mülheim, (2013)
[1] Sharma, A., Maeke, T., Wagler P., and McCaskill, J.S. "Conventional LCoS chips for future biochemical applications: Experiments and theory." 8th international meeting on electrowetting, 2012 (2012)
Magazine articles
Our research on MICREAgents project was published in Phys.org and Science Daily, Electronic micro labs control chemical processes from the inside (written by Prof. John S. McCaskill). Link