推荐杏吧原创

Selected publications

  • T. Robinson, A. Kirn, J. Amos, I. Chatterjee, “The effects of engineering summer camps on middle and high school students’ engineering interest and identity formation: A multi-methods study”, being revised, Journal of Pre-College Engineering Education Research, 2023.
  • J. Gutual, L. Robinson, A. Kirn, and I. Chatterjee, “Cool It! Exploring the engineering design process and biomedical engineering”, Science Scope, accepted, 2023.
  • K. Scalaro, I. Chatterjee, A-M. Vollstedt, J.C. Lacombe, and A. Kirn, “From knowing to doing: Changes in performance/competence beliefs of developing engineers”, Proceedings of the ASEE 2022 Conference & Exposition, Minneapolis, MN, June 26-30, 2022.
  • I. Chatterjee, K. Scalaro, A-M. Vollstedt, J. Lacombe, J.M. Williams, and A. Kirn, S-STEM: Creating Retention and Engagement for Academically Talented Engineers successes and challenges, ASEE 2022 Conference & Exposition, Minneapolis, MN, June 26-30, 2022.
  • K. Scalaro, I. Chatterjee, A-M. Vollstedt, J. Lacombe, and A. Kirn, “Creating Retention and Engagement for Academically Talented Engineers (CREATE)”, 2022 S-STEM Symposium, Sept. 29 – Oct. 1, 2022.
  • I.Chatterjee, K. Scalaro, A-M. Vollstedt, J. Lacombe, J. Williams, A. Kirn, “S-STEM: Creating Retention and Engagement for Academically Talented Engineers”, Proceedings of the 2021 Annual ASEE Conference & Exposition, July 26-29, 2021
  • K. Scalaro, I. Chatterjee, A-M. Vollstedt, J. Lacombe, A. Kirn, “Changes in undergraduate engineering identity and narrowing of meaningful recognition”, Proceedings of the Annual ASEE Conference & Exposition, July 2021.
  • Zaklit, I. Chatterjee, N. Leblanc and G.L. Craviso, “High intensity, 5 ns electric pulses mobilize Ca2+ from ER Ca2+ stores in adrenal chromaffin cells”, 2018 BMESAnnual Meeting, Atlanta, Georgia, October 17 – 20, 2018
  • Chatterjee, A. Kirn, J. Amos, “The Effect of Engineering Summer Camps on Middle School Students Interest and Identity”, Annual ASEE Conference and Exposition, Salt Lake City, UT, June 24 – 28, 2018, Invited poster presented at the NSF Grantees session and published in the conference proceedings.
  • Sukhraj, A. Shoaf, I. Chatterjee, N. Leblanc, G.L. Craviso, “5 ns electric pulses evoke CA2+ responses in adrenal chromaffin cells that are longer in duration than those evoked by a physiological stimulus”, BioEM 2018 annual conference, Portoroz, Slovenia, June 24 – 29, 2018
  • Yang, S. Pierce, P.T. Vernier, I. Chatterjee, G.L. Craviso, N. Leblanc, “Differential effects of single and twin high intensity nanosecond electric pulses on membrane permeabilization and Na+ conductance in bovine chromaffin cells”, Biophysical Society Annual Meeting, San Francisco, CA, Feb. 17 – 21, 2018.
  • Yang, G.L. Craviso, P.T. Vernier, I. Chatterjee, N. Leblanc “Nanosecond electric pulses differentially affect inward and outward currents in patch clamped adrenal chromaffin cells”, PLOS one, July 10, 2017.
  • Zaklit, G.L. Craviso, N. Leblanc, L. Yang, P.T. Vernier, I. Chatterjee, “Adrenal chromaffin cells exposed to 5 ns pulses require higher electric fields to porate intracellular membranes than the plasma membrane: an experimental and modeling study”, Journal of Membrane Biology, Volume 250, no. 5, 2017, pp. 535 – 552.
  • C. Sabuncu, N. Leblanc, M. Stacey, G.L. Craviso, N. Semenova, P.T. Vernier, I. Chatterjee, J. Zaklit “Dielectric properties of isolated adrenal chromaffin cells determined by microfluidic impedance spectroscopy”, Bioelectrochemistry, 2018.
  • Shaw, T.R. Bagalkot, R.Sukhraj, K. Murray, I. Chatterjee, G.L. Craviso, N. Leblanc, “Real-time monitoring of chromaffin cell secretory granules by total internal reflection fluorescence microscopy reveals a stimulatory effect of nanosecond electric pulses (nsPEF) on exocytosis”, 2nd World Congress on Electroporation, Norfolk, VA, Sept. 24 – 28, 2017.
  • Aramendia, G.L. Craviso, N. Leblanc, J.E. Zaklit, K. Burckhardt, E. Neufeld, I. Chatterjee, “Detailed adrenal chromaffin cell model for studying the interaction of high intensity electric fields with membranes of secretory granules”, 2nd World Congress on Electroporation, Norfolk, VA, Sept. 24 – 28, 2017.
  • Yang, N. Leblanc, P.T. Vernier, I. Chatterjee, G.L. Craviso, “Paradoxical effects of single and twin high-intensity nanosecond electric pulses on inward Na+ currents in bovine chromaffin cells”, 2nd World Congress on Electroporation, Norfolk, VA, Sept. 24 – 28, 2017.
  • Yoon, N. Leblanc, J. Zaklit, P.T. Vernier, I. Chatterjee, G.L. Craviso, Enhanced Monitoring of nanosecond electric pulse-evoked membrane conductance changes in whole-cell patch clamp experiments, Journal of Membrane Biology, 2016
  • El Zaklit, G.L. Craviso, N. Leblanc, R. Terhune, I. Chatterjee. Numerical Modeling of intracellular adrenal chromaffin cell responses to high intensity 5 ns electric pulses. BioEM 2016 Joint meeting of the Bioelectromagnetics Society and the European Bioelectromagnetics Association conference proceedings, Ghent, Belgium, June 5-10, 2016
  • Yang, G. Craviso, R. Terhune, P.T. Vernier, I. Chatterjee, N. Leblanc. Potential differential effects of single high intensity 6 ns electric pulses on macroscopic inward and outward ionic currents recorded in whole-cell patch clamped bovine chromaffin cells. BioEM 2016 Joint meeting of the Bioelectromagnetics Society and the European Bioelectromagnetics Association conference proceedings, Ghent, Belgium, June 5-10, 2016
  • Chatterjee, Electromagnetic Compatibility lecture and laboratory course for undergraduate and graduate students. 10th European Conference on Antennas and Propagation, Davos, Switzerland, April 10-15, 2016.
  • J. ElZaklit, J. Yoon, I. Chatterjee, E. Evans, P.T. Vernier, N. Leblanc and G.L. Craviso. Ca2+ release from internal stores of adrenal chromaffin cells is not evoked by 5 ns electric pulses. BioEM 2015 conference proceedings, Asilomar, CA, June 2015.
  • J. Yoon, J. ElZaklit, I. Chatterjee, P.T. Vernier, N. Semenova, N. Leblanc and G.L. Craviso. Transient versus sustained Ca2+ responses evoked in adrenal chromaffin cells by 5 ns pulses: pulse delivery considerations. BioEM 2015 conference proceedings, Asilomar, CA, June 2015.
  • G.L. Craviso, C. Fisher, I. Chatterjee and P.T. Vernier. Adrenal chromaffin cells do not swell when exposed to nanosecond electric pulses. Bioelectrochemistry, in press 2015.
  • R. Terhune, I. Chatterjee, J. Yoon and G.L. Craviso. Finite-Difference Time-Domain electromagnetic and thermal modeling of skeletal muscle exposed to millimeter waves. Proceedings of the IEEE 2014 International Microwave Symposium, Tampa, FL, June 1-5, 2014.
  • J. Yoon, N. Leblanc, S. Pierce, I. Chatterjee, P.T. Vernier and G.L. Craviso. Increase in chromaffin cell membrane conductance evoked by 5 nanosecond electric pulses. Proceedings of the BioEM conference, Capetown, S. Africa, June 8-13, 2014.
  • I. Chatterjee, J. Yoon, R. Wiese, S. Luongo, P. Mastin, L. Sadovnik and G.L. Craviso. Millimeter wave bioeffects at 94 GHz on skeletal muscle contraction. Proceedings of the IEEE Radio and Wireless Week conference, Austin, TX, 2013.
  • A. Cerjanic, I. Chatterjee and B. Shiekman. Method of Moments modeling of microstrip patch antennas with automatic GPU acceleration, Proceedings of the IEEE MTT-S International Microwave Symposium, Montreal, Canada, 2012.
  • G.L. Craviso, S. Choe, I. Chatterjee and P.T. Vernier. Modulation of intracellular Ca2+ levels in chromaffin cells by nanoelectropulses. Bioelectrochemistry, Vol. 87:244-252, 2012.
  • J. Yoon, S. Luongo, R. Wiese, P. Mastin, P. Sadovnik, G.L. Craviso and I. Chatterjee. W-band millimeter wave exposure system for studying non-thermal effects on skeletal muscle contraction. Proceedings of the International Microwave Symposium, Baltimore, MD, 2011.
  • G.L. Craviso, S. Choe, P. Chatterjee, I. Chatterjee and P.T. Vernier. Nanosecond electric pulses: a novel stimulus for triggering Ca2+ influx into chromaffin cells via voltage-gated Ca2+ channels. Cell. Mol. Neurobiol., Vol. 30:1259-1265, 2010.
  • G.L. Craviso, P. Chatterjee, G. Maalouf, A. Cerjanic, J. Yoon, I. Chatterjee and P.T. Vernier, Nanosecond electric pulse-induced increase in intracellular calcium in adrenal chromaffin cells triggers calcium-dependent catecholamine release. IEEE Transactions on Dielectrics and Electrical Insulation, Vol. 16: 1294-1301, 2009.
  • N. Hassan, I. Chatterjee, N.G. Publicover and G.L. Craviso, Mapping membrane potential perturbations of chromaffin cells exposed to electric fields. IEEE Trans. Plasma Science, Vol. 30:1516-1524, 2002.
  • J. Yoon, I. Chatterjee, D. McPherson and G.L. Craviso, Design, characterization and optimization of a broadband mini exposure chamber for studying catecholamine release from chromaffin cells exposed to microwave radiation: Finite-Difference Time-Domain Technique. IEEE Transactions on Plasma Science Vol. 34:1455-1469, 2006.
  • J. Yoon, I. Chatterjee, and G.L. Craviso. Feasibility study of using two types of microstripline bandpass filters for the detection of bacteria in water. Proceedings of the European Microwave Week Conference, October 8-11, 2007.
  • M.R. Lambrecht, I. Chatterjee, D. McPherson, J. Quinn, T. Hagan and G.L. Craviso, Design, characterization and optimization of a waveguide-based RF/MW exposure system for studying nonthermal effects on skeletal muscle contraction. IEEE Transactions on Plasma Science Vol. 34:1470-1479, 2006.
  • T. Hagan, I. Chatterjee, D. McPherson and G.L. Craviso, A novel waveguide-based radiofrequency/microwave exposure system for studying non-thermal effects on neurotransmitter release: Finite-Difference Time-Domain modeling. IEEE Transactions on Plasma Science, Vol. 32: 1668 - 1676, 2004.
  • N. Hassan, I. Chatterjee, N.G. Publicover and G.L.Craviso, Numerical study of induced current perturbations in the vicinity of excitable cells exposed to extremely low frequency magnetic fields. Phys. Med. Biol. Vol. 48:3277-3293, 2003.