Journal Publications:
[35] Alissa C Johnson, Adam J Dunlop, Ryan R Kohlmeyer, Chadd T Kiggins, Aaron J Blake, Soninka V Singh, Evan M Beale, Beniamin Zahiri, Arghya Patra, Xiujun Yue, John B Cook, Paul V Braun, James H Pikul, “Strategies for approaching one hundred percent dense lithium-ion battery cathodes” Journal of Power Sources, 532, 231359, 2022.
[34] Yichao Shi, Zhimin Jiang, and James H. Pikul, “Harnessing Cascading Dominoes for Peristaltic Wave Motion”, IEEE Robotics and Automation Letters, 2022.
[33] Rui Filipe Serra Maia, Eric Detsi, John Corsi, Min Wang, James H. Pikul, and Eric A. Stach, “Developing near-atomic-scale chemical analysis in liquid-phase S/TEM to study high capacity battery anodes”, Microscopy and Microanalysis, 27 (S1), 1036-1038.
[32] Xiujun Yue, Alissa C. Johnson, Sungbong Kim, Ryan R. Kohlmeyer, Arghya Patra, Jessica Grzyb, Akaash Padmanabha, Min Wang, Zhimin Jiang, Pengcheng Sun, Chadd T. Kiggins, Mehmet N. Ates, Sonika V. Singh, Evan M. Beale, Mark Daroux, Aaron J. Blake, John B. Cook, Paul V. Braun, James H. Pikul, “A nearly packaging-free design paradigm for light, powerful, and energy dense primary microbatteries”, Advanced Materials, 2101760, 2021.
[31] David Levine, Kevin Turner, and James H. Pikul, “Materials with electroprogrammable stiffness”, Advanced Materials, 2007952, 2021.
[30] Zhimin Jiang and James H. Pikul. “Centimetre-scale crack-free self-assembly for ultra-high tensile strength metallic nanolattices” Nature Materials, 1-7, 2021.
[29] Zakaria Hsain, Zhimin Jiang, and James H. Pikul, “Enabling effective electrochemical healing of structural steel”, Multifunctional Materials, vol. 4, no. 2, 024004, 2021.
[28] Min Wang, Andrew C. Meng, Jintao Fu, Alexandre C. Foucher, Rui Filipe Serra Maia, Eric A. Stach, Eric Detsi, and James H. Pikul, “Surface Facet Engineering in Nanoporous Gold for Low-Loading Catalysts in Aluminum-Air Batteries”, ACS Applied Materials and Interfaces, 2021.
[27] Min Wang, Yue Gao, and James H. Pikul, “Computer-free autonomous Navigation and Power Generation Using Electro‐Chemotaxis”, Advanced Intelligent Systems, 2000255, 2021
[26] Kahnt, M., Sala, S., Johansson, U., Bjorling, A., Jiang, Z., Kalbfleisch, S., Lenrick, F., Pikul, J. H. & Thanell, K. “First ptychographic X-ray computed tomography experiment on the NanoMAX beamline” J. Appl. Cryst., 53, 2020.
[25] Zhimin Jiang, Zakaria Hsain, and James H. Pikul. “Thick free-standing metallic inverse opals enabled by new insights into the fracture of drying particle films” Langmuir, 2020.
[24] Xiujun Yue, Jessica Grzyb, Akaash Padmanabha, and James H. Pikul. “A Minimal Volume Hermetic Packaging Design for High-Energy-Density Micro-Energy Systems” Energies vol. 13, no. 10, pp. 2492, 2020.
[23] Min Wang, Unnati Joshi, James H. Pikul, “Powering electronics by scavenging energy from external metals” ACS Energy Letters, vol. 5, no.3, pp. 758-765, 2020.
[22] Michael Synodis, James Pikul, Sue Ann Bidstrup Allen, and Mark G. Allen. “Vertically integrated high voltage Zn-Air batteries enabled by stacked multilayer electrodeposition“, Journal of Power Sources, vol. 449 pp. 227566, 2020.
[21] James H. Pikul, Jeffrey W. Long, “Architected Materials for Advanced Electrochemical Systems“, MRS Bulletin, vol. 44, no. 10, October 2019.
[20] Zakaria Hsain, James H. Pikul, “Low-energy Room-temperature Healing of Cellular Metals“, Advanced Functional Materials, pp. 1905631, August 2019.
[19] Cameron A. Aubin, Snehashis Choudhury, Rhiannon Jerch, Lynden A. Archer, James H. Pikul, Robert F. Shepherd, “Electrolytic vascular systems for energy-dense robots“, Nature, vol. 571, June 2019.
[18] James H. Pikul, Sezer Özerinç, Burigede Liu, Runyu Zhang, Paul V. Braun, Vikram S. Deshpande, William P. King, “High strength metallic wood from nanostructured nickel inverse opal materials“, Scientific Reports, vol. 9, January 2019. Top 100 downloaded materials science papers for Scientific Reports in 2019.
[17] Steven Ceron, Itai Cohen, Robert F. Shepherd, James H. Pikul, Cindy Harnett, “Fiber Embroidery of Self-Sensing Soft Actuators”, Biomimetics, vol. 3, September 2018.
[16] James H. Pikul, Hailong Ning, “Powering the internet of things”, Joule, vol. 2, pp. 1036–1038, June 20, 2018.
[15] T.J. Wallin, James Pikul, Robert F. Shepherd, “3D printing of soft robotic systems“, Nature Reviews Materials, May 4, 2018.
[14] Dean Keithly, John Whitehead, Alexandra Voinea, Diego Horna, Samantha Hollenberg, Mason Peck, James Pikul, Robert F. Shepherd, “A cephalopod-inspired combustion powered hydro-jet engine using soft actuators“, Extreme Mechanics Letters, vol 20, April 2018.
[13] James H. Pikul, Shuo Li, Hedan Bai, Roger T. Hanlon, Itai Cohen, Robert F. Shepherd, “Stretchable surfaces with programmable 3-D texture morphing for synthetic camouflaging skins”, Science, vol. 358, pp. 210-214, October 18, 2017.
[12] T.J. Wallin, J.H. Pikul, S. Bodkhe, B.N. Peele, B.C. Mac Murray, D. Therriault, B.W. McEnerney, R.P. Dillon, E.P. Giannelis, R.F. Shepherd, “Click chemistry stereolithography for soft robots that self-heal”, Journal of Materials Chemistry B, vol. 5, pp. 6249-6255, 2017.
[11] James H. Pikul, Paul V. Braun, and William P. King. “Performance Modeling and Design of Ultra-High Power Microbatteries” Journal of The Electrochemical Society, vol. 164.11, pp. E3122-E3131,2017.
[10] James H. Pikul, Jinyun Liu, Paul V. Braun, William P. King, “Integration of high capacity materials into interdigitated mesostructured electrodes for high energy and high power density primary microbatteries” Journal of Power Sources, vol. 315, pp. 308-315, 2016.
[9] Hailong Ning, James H. Pikul, Runyu Zhang, Xuejiao Li, Sheng Xu, Junjie Wang, John A. Rogers, William Paul King, and Paul V. Braun, “Holographic Patterning of High Performance on-chip 3D Lithium-ion Microbatteries”, Proceeding of the National Academy of Sciences, vol. 112, no. 21, pp. 6573-6578, 2015.
[8] James H. Pikul, Paul V. Braun, and William P. King, “Micromechanical devices with controllable stiffness fabricated from regular 3D porous materials”, Journal of Micromechanics and Microengineering, vol. 24, 105006, 2014
[7] Jinyun Liu, Huigang Zhang, Junjie Wang, Jiung Cho, James Pikul, Eric Scott Epstein, Xingjiu Huang, Jinhuai Liu, Paul V. Braun, “Hydrothermal Fabrication of Three-Dimensional Secondary Battery Anodes”, Advanced Materials, vol. 26, no. 41, pp. 7096-7101, 2014.
[6] James H. Pikul, Huigang Zhang, Jiung Cho, Paul V. Braun, and William P. King, “High power lithium ion micro batteries from interdigitated three-dimensional bicontinuous nanoporous electrodes”, Nature Communications, vol. 4, pp. 1732, 2013
[5] Xueqiu You, James H. Pikul, William P. King, and James J. Pak, “Zinc oxide inverse opal enzymatic biosensor“, Applied Physics Letters, vol. 102, pp. 253103-5, 2013.
[4] Elise A. Corbin, Larry J. Millet, James H. Pikul, Curtis L. Johnson, John G. Georgiadis, William P. King & Rashid Bashir, “Micromechanical properties of hydrogels measured with MEMS resonant sensors“, Biomedical Microdevices, vol. 15, pp. 311 – 319, 2013.
[3] Paul V. Braun, Jiung Cho, James H. Pikul, William P. King, and Huigang Zhang, “High power rechargeable batteries“, Current Opinion in Solid State & Materials Science, vol. 16, pp. 186 – 198, 2012.
[2] James H. Pikul, Phillip Graf, Sandipan Mishra, Kira Barton, Yong-Kwan Kim, John A. Rogers, Andrew Alleyne, Placid M. Ferreira, and William P. King, “High precision electrohydrodynamic printing of polymer onto microcantilever sensors“, IEEE Sensors Journal, vol. 11, pp. 2246 – 2253, 2011.
[1] Kevin A. Arpin, James H. Pikul, William P. King, H. Fan, and P. V. Braun, “Template directed assembly of dynamic micellar nanoparticles“, Soft Matter, vol. 7, pp. 10252-10257, 2011.
Conference Papers:
[13] Gregory Campbell, Jessica Yin, Yuyang Song, Umesh Gandhi, Mark Yim, James Pikul, “Electroadhesive Clutches for Programmable Shape Morphing of Soft Actuators”, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), Kyoto, Japan, 2022.
[12] Yichao Shi, Zhimin Jiang, James Pikul, “Harnessing cascading dominoes for peristaltic motion”, IEEE International Conference on Robotics and Automation (ICRA), Philadelphia, PA, 2022.
[11] Jessica Yin, Gregory Campbell, James Pikul, Mark Yim, “Multimodal Proximity and Visuotactile Sensing With a Selectively Transmissive Soft Membrane”, IEEE-RAS International Conference on Soft Robotics – RoboSoft, Edinburgh, Scotland, 2022. [Best paper award]
[10] Vishal Venkatesh, Qi Yang, Jingwen Zhang, James H. Pikul, Mark G. Allen, “Fabrication and Characterization of Evaporated Zinc Anodes for Small-Scale Zinc-Air Batteries”, The 21st International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), Virtual Conference, 2021
[9] John B. Cook, Alissa Johnson, Xiujun Yue, Ryan Kohlmeyer, Chadd Kiggins, Sungbong Kim Mehmet Nurullah Ates, Aaron Blake, Paul Braun, John D. Busbee, James H. Pikul, “Employing Molten Salt Electrodeposition to Produce High Energy Microbatteries for SHort-Range Independent Microrobotic Platforms (SHRIMP)”, GOMAC Tech, San Diego, 2020
[8] A. Johnson, R. Kohlmeyer, M. N. Ates, C. Kiggins, A. Blake, J. B. Cook, J. H. Pikul, “Performance Modeling and Design of High Energy Density Microbatteries”, The 19th International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (IEEE PowerMEMS), Krakow, 2019. [Best paper award]
[7] X. Yue, J. Grzyb, A. Padmanabha, J. H. Pikul, “A minimal volume hermetic packaging design for high energy density micro energy systems”, The 19th International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (IEEE PowerMEMS), Krakow, 2019
[6] Michael Synodis, James H. Pikul, Sue Ann Bidstrup Allen, Mark Allen, “Integrated fabrication of serially connected high voltage microbatteries via multilayer electrodeposition”, 20th International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII, Berlin, Germany, 2019.
[5] Hang Yuan, James Pikul, Cynthia Sung, “Programmable 3-D surfaces using origami tessellations”, 7th International Meeting on Origami in Science, Mathematics and Education, Oxford, 2018.
[4] James H. Pikul, Sezer Ozerinc, Runyu Zhang, Paul V. Braun, and William P. King, “Micro architected porous material with high strength and controllable stiffness”, IEEE Micro Electro Mechanical Systems Conference 2016, Shanghai.
[3] James H. Pikul, Huigang Zhang, Jiung Cho, Paul V. Braun, and William P. King, “High power lithium ion microbatteries with lithographically defined 3-D porous electrodes”, IEEE Micro Electro Mechanical Systems Conference 2013, Taiwan.
[2] James H. Pikul, Huigang Zhang, Jiung Cho, Tae Wan Kim, Paul V. Braun, and William P. King, “High power lithium ion microbatteries with 3D nanostructured electrodes,” Technologies for Future Micro-Nano Manufacturing, Napa, California, 2011.
[1] Johnny R. Felts, Patrick C. Fletcher, Suhas Somnath, James H. Pikul, Zenting Dai, Woo K. Lee, Paul E. Sheehan, and William P. King, “Nanofabrication using heated probe tips,” Micro- and Nanotechnology Sensors, Systems, and Applications III, SPIE Proceedings Volume 8031, 2011.
Conference Presentations:
[24] Alissa Claire Johnson, Alice S Fontaine, Emily Adair Beeman, James H. Pikul, “Silicone Oil Emulsions As Oxygen Enriched Flow Battery Catholytes That Enable Fully Submerged Air Cathodes”, 241st Electrochemical Society Meeting 2022.
[23] Alissa C. Johnson, A. J. Dunlop, R. R. Kohlmeyer, C. T. Kiggins, A. J. Blake, S. V. Singh, E. M. Beale, B. Zahiri, A. Patra, X. Yue1, J. B. Cook, P. V. Braun, J. H. Pikul, “Strategies for Approaching One Hundred Percent Dense Lithium-Ion Battery Cathodes”, 241st Electrochemical Society Meeting 2022.
[22] Zakaria Hsain and James H. Pikul, “Room-Temperature Electrochemical Healing of Difficult-to-Weld Metallic Materials”, 18th European Mechanics of Materials Conference, Oxford, UK, April 2022
[21] Zhimin Jiang and James H. Pikul, “A Large-scale and Fast Self-assembly Method for Fabricating Strong Inverse Opal Nanolattices”, 18th European Mechanics of Materials Conference, Oxford, UK, April 2022
[20] Akaash Padmanabha, Alissa Johnson, and James H. Pikul, “Simulating Autoconvective Flow to Improve the Rate Performance of High Energy Density Lithium-Ion Electrodes”, 240th Electrochemical Society Meeting 2021.
[19] Zakaria Hsain, Zhimin Jiang, and James H. Pikul, “Room-temperature electrochemical healing of structural steel through pulsed plating and tailored electrolyte chemistry”, 240th Electrochemical Society Meeting 2021.
[18] Zhimin Jiang, and James H. Pikul, “Crack-Free Colloid Self-Assembly for High-Strength Metallic Nanolattice Fabrication”, Materials Research Society Spring Meeting 2021, Virtual.
[17] Zhimin Jiang, and James H. Pikul, “Multifunctional Metallic Nanolattices with Ultra-High Tensile Strength Enabled by cm-Scale Crack-Free Self-Assembly”, Materials Research Society Spring Meeting 2021, Virtual.
[16] Xiujun Yue , Alissa C. Johnson , Zhimin Jiang , Ryan R. Kohlmeyer , Chadd T. Kiggins , John Cook , James H. Pikul, “Ultra-high Current Mechanical Energy Harvester Based on Lithium Cobalt Oxide”, Materials Research Society Fall Meeting 2020, Virtual.
[15] Xiujun Yue, Sungbong Kim, Ryan R. Kohlmeyer, Chadd T. Kiggins, Alissa C. Johnson, Arghya Patra, Aaron J. Blake, Jessica A. Grzyb, Akaash Padmanabha, Min Wang, John Cook, Paul Braun, James H. Pikul, “1500 Wh/L and 580 W/L Lithium Cobalt Oxide Electrodes”, Materials Research Society Fall Meeting 2020, Virtual.
[14] Min Wang, Unnati Joshi, James H. Pikul, “Powering Electronics by Electrochemically Scavenging Energy From External Metals”, The International Mechanical Engineering Congress and Exposition (IMECE), 2020, Virtual.
[13] Zhimin Jiang, Andrew Lin, David Issadore, and James H. Pikul, “Tailoring Pore Size and Surface Properties of High-Strength Microporous Nickel Inverse Opals for Fast and Efficient Immunomagnetic Separation of Exosomes”, The International Mechanical Engineering Congress and Exposition (IMECE), 2020, Virtual.
[12] Xiujun Yue, Alissa C. Johnson, Zhimin Jiang, James. H. Pikul, “Ultra-High Current Mechanical Energy Harvester Based on Lithium Cobalt Oxide”, ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems (SMASIS), 2020, Virtual.
[11] Alissa C. Johnson, James H. Pikul, “Perfluorocarbon Emulsions for High Energy Density Synthetic Vascular Systems”, ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems (SMASIS), 2020, Virtual.
[10] Min Wang, Unnati Joshi, James H. Pikul, “A Metal-Air Scavenger from Hydrogel Electrolytes for Powering Robotics”, The Electrochemcial Society fall meeting, 2019, Atlanta, Ga.
[9] Zakaria Hsain, James H. Pikul, “Electrochemical healing of cellular metals at room temperature”, ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems (SMASIS), 2019, Louiseville, Ky.
[8] Zakaria Hsain, James H. Pikul, “Electrochemically-driven transport for room-temperature healing of metallic cellular materials with synthetic vascular systems”, Materials Research Society Spring Meeting 2019, Phoenix, Az.
[7] Hang Yuan, James Pikul, Cynthia Sung, “Programmable 3-D surfaces using origami tessellations”, 7th International Meeting on Origami in Science, Mathematics and Education, Oxford, 2018.
[6] James H. Pikul, Shuo Li, Itai Cohen, and Rob Shepherd, “Texture morphing camouflaging skins”, Materials Research Society Spring Meeting 2017, Pheonix.
[5] James H. Pikul, Paul V. Braun, and William P. King, “High power primary lithium ion microbatteries”, Materials Research Society Fall Meeting 2013, Boston.
[4] James H. Pikul, Paul V. Braun, and William P. King, “High power primary lithium ion microbatteries”, IEEE PowerMEMS 2013, London, UK.
[3] James H. Pikul, Huigang Zhang, Jiung Cho, Paul V. Braun, and William P. King, “High power lithium ion microbatteries with 3D nanostructured electrodes”, Materials Research Society Fall Meeting 2012, Boston.
[2] Kevin A. Arpin, James H. Pikul, Hongyu Fan, William P. King, and Paul V. Braun, “Template directed assembly of dynamic micellar nanoparticles,” Materials Research Society Fall Meeting 2011, Boston.
[1] James H. Pikul, Phillip Graf, Sandipan Mishra, Kira Barton, Yong-Kwan Kim, John A. Roger, Andrew Alleyne, Placid M. Ferreira, and William P. King, “High precision polymer deposition onto microcantilever sensors using electrohydrodynamic printing,” IEEE Sensors Conference 2010, Hawaii.
Invited Talks:
“Energy dense and adaptable robots that eat, breathe, and heal”, Northwestern University, May 2022.
“Energy dense and adaptable robots that eat, breathe, and heal”, University of Illinois at Urbana-Champaign, April 2022.
“Energy dense and adaptable robots that eat, breathe, and heal”, University of Wisconsin -Madison, April 2022.
“Room-temperature Electrochemical Healing of Difficult-to-weld Metallic Materials”, TMS Functional Materials Division, March 2022.
“Energy dense robots with adaptable shape and stiffness”, Meta (Facebook) Reality Labs Applied Materials Seminar, March 2022.
“Energy dense and self-healing robots that eat, breath, and bleed”, Penn State University, Mechanical Engineering Seminar Series, February 2022.
“Robots that Eat, Breathe, and Bleed”, University of Iowa, Mechanical Engineering Seminar, Virtual, 2021.
“Robots that Eat, Breathe, and Bleed”, University of Pennsylvania, Chemical and Biomolecular Engineering Seminar, Virtual, 2021.
“Electrochemical Healing of Metals: A New Way to Repair Additive and Cellular Metals at Room Temperature”, TMS Society Meeting, Virtual, 2021.
“Robots that eat, breath, and bleed”, Johns Hopkins Applied Physics Lab, Lexington Park, Maryland, 2020.
“Electrolytic Vascular Systems for Energy Dense Soft Robots”, Soft Robotics and Robot Learning Workshop, New York City, New York, 2019
“Self-assembly of ultra-high strength nanoporous metals for multifunctional coatings and free-standing films”, 2019 International Conference on Metallurgical Coatings and Thin Films, San Diego, CA, 2019
“Electrochemistry for morphogenesis, energy transduction, and energy transport”, “Chemo-structural Dynamics” Army Science Planning and Strategy Meeting, Rice University, Houston, TX, 2019
“Ultra-high strength nanoporous foams as a platform for multifunctional structural materials”, Texas A and M University Seminar, College Station, TX, 2018.
“Performance modeling and design of ultra-high power microbatteries”, Beyond Li-ion XI, NASA Glenn Research Center, OH, 2018
“High strength and high performance hierarchical materials through nanoscale engineering”, Engineering Precision Dental Medicine Workshop, University of Pennsylvania, May 2018
“Developing revolutionary high power lithium ion microbatteries”, The Battery Show, Novi, MI, 2013
“High power lithium ion microbatteries”, Nano-EP, Urbana, IL, 2013
“High power lithium ion microbatteries”, Xerion Advanced Battery Corp., Champaign, IL, 2012
“Soft robots: from locomotion to texture morphing skins”, Matter Design Computation Symposium, Ithaca, NY, 2017
Patents:
David Levine, Kevin Turner, James Pikul. August 25, 2022. High-Force Capacity Electroadhesives. U.S. Provisional Application No.: 63/373,541
Jessica Yin, Mark Yim, James Pikul. June 10, 2022. Multimodal Proximity And Visuotactile Sensing Through Transmissive Membrane. U.S. Provisional Application No.: 63/350,934
Greg Campbell, James Pikul. May 20, 2022. Programmable Soft Actuator. U.S. Provisional Application No.: 63/344,248
Zhimin Jiang, James Pikul. June 16, 2021. Multifunctional Metallic Nanolattices And Methods Of Manufacture. U.S. Provisional Application No. 63/211,164
Robert F Shepherd, James Pikul. Electrohydraulic batteries and devices and systems including same. International No. WO2020219780A1.
James H. Pikul, Min Wang. February 12, 2019. Metal Air Scavenger – An Energy Harvesting Technology For Powering Electronics And Robotics. U.S. Provisional No. 62/804,345.
James H. Pikul, Zakaria Hsain. November 6, 2018. Healing And Morphogenesis Of Structural Metal Foams and Other Matrix Materials. U.S. Provisional No. 62/756,243.
James H. Pikul, Itai Cohen, Rob Shepherd. October 13, 2017. Stretchable surfaces with programmable texture. U.S. Provisional No. 62/572,282.
William P. King, Paul V. Braun, James H. Pikul. Aug. 2, 2016. Three Dimensional (3D) Porous Electrode Architecture for a Microbattery. U.S. 9,406,938 B2.