Publications

Journal Publications (Google scholar, ResearcherID, Scopus)

[76] Ping Ren, Jingyan Dong “Electrohydrodynamic (EHD) Printed PEDOT:PSS/Graphene/PVA Circuits for Sustainable and Foldable Electronics”, Advanced Materials Technologies, 2301045, 2023.

[75] Ping Ren, Jingyan Dong “Direct printing of conductive polymer PEDOT:PSS for foldable transient electronics”, Manufacturing Letters, 35, 215-220, 2023.

[74] Ping Ren, Runqiao Song, Yong Zhu, Brendan O’Connor, Jingyan Dong “All Electrohydrodynamic (EHD) Printed Flexible Organic Thin Film Transistors”, Advanced Materials Technologies, 8(17), 2300410, 2023.

[73] Runqiao Song, Ping Ren, Yuxuan Liu, Yong Zhu, Jingyan Dong, Brendan T. O’Connor, “Stretchable Organic Transistor Based Pressure Sensor Employing a Porous Elastomer Gate Dielectric”, Advanced Materials Technologies, 8(14), 2202140, 2023.

[72] Amar Kumar Behera, Ricardo Alves de Sousa, Valentin Oleksik, Jingyan Dong, Daniel Fritzen, “Multi-institutional, multi-metric evaluation of remote learning and assessment outcomes in mechanical and industrial engineering programs of study during the COVID-19 pandemic: Indicators and guidance for future preparedness”, European Journal of Engineering Education, 48(1), 110–142, 2023.

[71] Yuxuan Liu, Michael Zheng, Brendan O’Connor, Jingyan Dong, and Yong Zhu, “Curvilinear Soft Electronics by Micromolding of Metal Nanowires in Capillaries”, Science Advances, 8(46), eadd6996, 2022.

[70] Y. Cao, J. Dong, “Freeform printing and modeling of soft twisting electrothermal actuators”, Manufacturing Letters, 33, 41-47, 2022.

[69] P. Ren, J. Dong, “Direct electrohydrodynamic printing of aqueous silver nanowires ink on hydrophobic substrates for flexible and stretchable electronics”, Manufacturing Letters, 33, 161-166, 2022.

[68] Fei Cheng, Shichen Zhai, Jingyan Dong, “Investigation of Gaussian Mixture Clustering Model for Online Diagnosis of Tip-wear in Nanomachining”, Journal of Manufacturing Processes, 77, 114-124, 2022.

[67] Yang Cao, Jingyan Dong, “Fabrication, modeling, and characterization of soft twisting electrothermal actuators with directly printed oblique heater”, Journal of Micromechanics and Microengineering, 32(3), 035001, 2022.

[66] Fei Cheng, Jingyan Dong, “Data-Driven Online Detection of Tip Wear in Tip-Based Nanomachining using Incremental Adaptive Support Vector Machine,” Journal of Manufacturing Processes, 69, 412-421, 2021.

[65] Ping Ren, Jingyan Dong, “Direct Fabrication of VIA Interconnects by EHD printing for Multi-layer 3D Flexible and Stretchable Electronics”, Advanced Materials Technologies, 6(9), 2100280, 2021.

[64] Jia Deng, Lan Jiang, Bing Si, Huimin Zhou, Jingyan Dong, Pual Cohen, AFM-Based Nanofabrication and Quality Inspection of Three-Dimensional Nanotemplates for Soft Lithography, Journal of Manufacturing Processes, 66, 565-573, 2021.

[63] Yang Cao, Jingyan Dong, “Self-Sensing and Control of Soft Electrothermal Actuator”, IEEE Transactions on Mechatronics, 26(2), 854-863, 2021.

[62] Yang Cao, Jingyan Dong, “Programmable soft electrothermal actuators based on free-form printing of the embedded heater”, Soft Matter, 17, 2577-2586, 2021.

[61] Ping Ren, Yuxuan Liu, Runqiao Song, Brendan O’Connor, Jingyan Dong, and Yong Zhu, “Achieving High-Resolution Electrohydrodynamic Printing of Nanowires on Elastomeric Substrates through Surface Modification”, ACS Applied Electronic Materials, 3(1), 192-202, 2021.

[60] Runqiao Song, Shanshan Yao, Yuxuan Liu, Hongyu Wang, Jingyan Dong, Yong Zhu, Brendan O’Connor, “A facile approach to fabricating stretchable organic transistors with laser patterned Ag nanowire electrodes”, ACS Applied Materials & Interfaces, 12(45), 50675–50683, 2020.

[59] Xiangcheng Kong, Jia Deng, Jingyan Dong, Paul H. Cohen. “Study of tip wear for AFM-based vibration-assisted nanomachining process.” Journal of Manufacturing Processes, 50, 47-56, 2020.

[58] Shanshan Yao, Ping Ren, Runqiao Song, Yuxuan Liu, Qijin Huang, Jingyan Dong, Brendan T. O’Connor and Yong Zhu, “Nanomaterial-Enabled Flexible and Stretchable Sensing Systems: Processing, Integration, and Applications,” Advanced Materials, 32(15), 1902343, 2020.

[57] Yang Cao, Jingyan Dong, “High-performance low-voltage soft electrothermal actuator with directly printed micro-heater”, Sensors and Actuators A: Physical, 297, 111546. 2019.

[56] Fei Cheng, Jingyan Dong, “Nano-machining AFM Tip Wear Monitoring Based on Time Series Data and Support Vector Machine,” Acta Metrologica Sinica, 40(4), 647-654, 2019.

[55] Fei Cheng, Jingyan Dong, “Monitoring Tip-based Nanomachining Process by Time Series Analysis using Support Vector Machine,” Journal of Manufacturing Processes, 38, 158-166, 2019.

[54] Yiwei Han, Jingyan Dong, “Electrohydrodynamic Printing for Advanced Micro/Nanomanufacturing: Current Progresses, Opportunities, and Challenges”, ASME Journal of Micro and Nano-Manufacturing, 6(4), 040802, 2018.

[53] Yiwei Han, Jingyan Dong, “Fabrication of Self-Recoverable Flexible and Stretchable Electronic Devices”, Journal of Manufacturing Systems, 48, 24-29, 2018.

[52] Jia Deng, Jingyan Dong, Paul Cohen, “Development and Characterization of Ultrasonic Vibration Assisted Nanomachining Process for 3D Nanofabrication”, IEEE Transaction on Nanotechnology, 17(3), 559-566, 2018.

[51] Zheng Cui, Yiwei Han, Qijin Huang, Jingyan Dong, Yong Zhu, “Electrohydrodynamic Printing of Silver Nanowires for Flexible and Stretchable Electronics”, NanoScale, 10(15), 6806-6811, 2018.

[50] Xiangcheng Kong, Chuang Wei, Yong Zhu, Paul Cohen, Jingyan Dong, “Characterization and Modeling Catalyst-free Carbon-Assisted Synthesis of ZnO Nanowires,” Journal of Manufacturing Processes. 32, 438-444, 2018.

[49] Yiwei Han, Jingyan Dong, “Electrohydrodynamic (EHD) Printing of Molten Metal Ink for Flexible and Stretchable Conductor with Self-Healing Capability,” Advanced Materials Technologies, 3(3), 1700268 (8pp), 2018.

[48] X. Kong, Jingyan Dong, Paul Cohen, “Modeling of the Dynamic Machining Force of Vibration-assisted Nanomachining Process,” Journal of Manufacturing Processes, 28, 101-108, 2017.

[47] H. Qin, Y. Cai, Jingyan Dong, Y-S. Lee, “Fabrication and electrical characterization of multi-layer capacitive touch sensors on flexible substrates by additive e-jet printing,” Journal of Manufacturing Processes, 28, 479-485, 2017.

[46] Yiwei Han, Jingyan Dong, “High-Resolution Direct printing of Molten-Metal using Electrohydrodynamic Jet Plotting,” Manufacturing Letters, 12, 6-9, 2017.

[45] Yiwei Han, Jingyan Dong, “Design, Modeling and Testing of Integrated Ring Extractor for High Resolution Electrohydrodynamic (EHD) 3D Printing”, Journal of Micromechanics and Microengineering, 27(3), 035005 (9pp), 2017.

[44] H. Qin, Y.Cai, Jingyan Dong, Y-S. Lee, “Direct Printing of Capacitive Touch Sensors on Flexible Substrates by Additive e-jet Printing With Silver Nanoink”, ASME Journal of Manufacturing Science and Engineering, 139(3), 031011, 2017.

[43] H. Qin, C. Wei, Jingyan Dong, Y-S. Lee, “Direct Printing and Electrical Characterization of Conductive Micro Silver Tracks by AC-pulse Modulated Electrohydrodynamic (EHD) Jet Printing”, ASME Journal of Manufacturing Science and Engineering, 139(2), 021008 (10 pages), 2017.

[42] H. Qin, Jingyan Dong, Y-S. Lee, “AC-Pulse Modulated Electrohydrodynamic Jet Printing and Electroless Copper Deposition for Conductive Microscale Patterning on Flexible Insulating Substrates” Robotics and Computer-Integrated Manufacturing, 43, 179–187, 2017.

[41] X. Kong, P. Cohen, Jingyan Dong, “Predictive Modeling of Feature Dimension for Tip-based Nano Machining Process”, Journal of Manufacturing Processes, 24, 338-345, 2016.

[40] Jia Deng, Li Zhang, Jingyan Dong, Paul H. Cohen, “AFM-based 3D Nanofabrication using Ultrasonic Vibration Assisted Nanomachining”, Journal of Manufacturing Processes, 24, 195-202, 2016.

[39] A. Bharathi, J. Dong, “Feedrate Optimization for Smooth Minimum-Time Trajectory Generation with Higher-Order Constraints,” International Journal of Advanced Manufacturing Technology, 82(5), 1029-1040, 2016.

[38] Jingyan Dong, “Ultrasonic Vibration-Assisted Nanomachining”, Encyclopedia of Nanotechnology, Springer Netherlands, 2015.

[37] Yiwei Han, Chuang Wei, Jingyan Dong, “Droplet Formation and Settlement of Phase-Change Ink in High Resolution Electrohydrodynamic (EHD) 3D Printing”, Journal of Manufacturing Processes, 20, 485–491, 2015.

[36] C. Wei, H. Qin, C-P, Chiu, Y-S. Lee, J. Dong, “Drop-on-Demand E-Jet Printing of Continuous Interconnects with AC-Pulse Modulation on Highly Insulating Substrates”, Journal of Manufacturing Systems, 37, 505-510, 2015.

[35] A. Bharathi, J. Dong, “Feedrate Optimization and Trajectory Control for Micro/Nano Positioning Systems with Confined Contouring Accuracy”, Journal of Engineering Manufacture, Proceedings of the Institution of Mechanical Engineers, Part B:, 229(7) 1193–1205, 2015.

[34] M. Henry, L. Cai, X. Liu, L. Zhang, J. Dong, L. Chen, Z. Wang, S. Wang, “Roles of Hydroxyapatite Allocation and Microgroove Dimension in Promoting Pre-osteoblastic Cell Functions on Photo-cured Polymer Nanocomposites through Nuclear Distribution and Alignment”, Langmuir, 31(9), 2851–2860, 2015.

[33] Chuang Wei, Jingyan Dong, “Development and Modeling of Melt Electrohydrodynamic-Jet Printing of Phase-Change Inks for High-Resolution Additive Manufacturing”, ASME Journal of Manufacturing Science and Engineering, 136(6), 061010, 2014.

[32] Yiwei Han, Chuang Wei, Jingyan Dong, “Super-Resolution Electrohydrodynamic (EHD) 3D Printing of Micro-Structures Using Phase-Change Inks”, Manufacturing Letters, 2(4), 96-99, 2014.

[31] C. Wei, H. Qin, N. A. Ramírez-Iglesias, C-P, Chiu, Y-S. Lee, J. Dong, “High-Resolution AC-Pulse Modulated Electrohydrodynamic Jet Printing on Highly Insulated Substrates”, Journal of Micromechanics and Microengineering, 24(4), 045010 (9pp), 2014.

[30] Chuang Wei, Jingyan Dong, “Hybrid Hierarchical Fabrication of Three-Dimensional Scaffolds”, Journal of Manufacturing Processes, 16(2), 257-263, 2014.

[29] Xuemeng Zhang, Bonjin Koo, Srinivasa M. Salapaka, Jingyan Dong, Placid M. Ferreira, “Robust Control of a MEMS Probing Device”, IEEE/ASME Transactions on Mechatronics, 19(1), 100-108, 2014.

[28] Chuang Wei, Jingyan Dong, “Direct Fabrication of High Resolution Three-Dimensional Polymeric Scaffolds using Electrohydrodynamic Hot Jet Plotting”, Journal of Micromechanics and Microengineering, 23(2), 025017, 2013.

[27] Li Zhang, Jingyan Dong, Paul H Cohen, “Material-Insensitive Feature Depth Control and Machining Force Reduction by Ultrasonic Vibration in AFM-Based Nanomachining”, IEEE Transaction on Nanotechnology, 12(5), 743-750, 2013.

[26] Yong Zhu, Joseph B. Tracy, Jingyan Dong, Xiaoning Jiang, M. Gail Jones, Gina Childers, “Teaching a Multidisciplinary Nanotechnology Laboratory Course to Undergraduate Students”, Journal of Nano Education, 5(1), 17-26, 2013.

[25] Chuang Wei, Lei Cai, Bhushan Sonawane, Shanfeng Wang, Jingyan Dong, “High-precision flexible fabrication of tissue engineering scaffolds using distinct polymers”, Biofabrication, 4(2), 025009, 2012.

[24] Lei Cai, Li Zhang, Jingyan Dong, Shanfeng Wang, “Photocured Biodegradable Polymer Substrates of Varying Stiffness and Microgroove Dimensions for Promoting Nerve Cell Guidance and Differentiation”, Langmuir, 28 (34), 12557–12568, 2012.

[23] Li Zhang, Jingyan Dong, “Design, Fabrication, and Testing of a SOI-MEMS-Based Active Microprobe for Potential Cellular Force Sensing Applications,” Advances in Mechanical Engineering, vol. 2012, Article ID 785798, 9 pages, 2012.

[22] Li Zhang, Jingyan Dong, “High-rate tunable ultrasonic force regulated nanomachining lithography with an atomic force microscope,” Nanotechnology, 23(8), 085303, 2012.

[21] Kan Wang, Lei Cai, Li Zhang, Jingyan Dong, Shanfeng Wang, “Biodegradable Photo-Crosslinked Polymer Substrates with Concentric Microgrooves for Regulating MC3T3-E1 Cell Behavior”, Advanced Healthcare Materials, 1(3), 292-301, 2012

[20] Bonjin Koo, Xuemeng Zhang, Jingyan Dong, Srinivasa M. Salapaka, Placid M. Ferreira, “A 2 Degree-of-Freedom SOI-MEMS Translation Stage with Closed Loop Positioning”, IEEE/ASME Journal of Microelectromechanical System, 20(1), 13-22, 2012

[19] Sebastian Polit, Jingyan Dong, “Development of a High-Bandwidth XY Nanopositioning Stage for High-Rate Micro/Nano Manufacturing”, IEEE/ASME Transactions on Mechatronics, 16(4), 724-722, 2011

[18] B.E. Helfrich, C. Lee, D.A. Bristow, X.H. Xiao, J. Dong, A.G. Alleyne, S.M. Salapaka, P.M. Ferreira, “Combined H∞-Feedback Control and Iterative Learning Control Design with Application to Nanopositioning Systems”, IEEE Transactions on Control Systems Technology, 18(2), 336-351 (2010).

[17] Jingyan Dong, Placid M. Ferreira, “Electrostatically Actuated Cantilever with SOI-MEMS Parallel Kinematic XY Stage”, IEEE/ASME Journal of Microelectromechanical Systems, 18(3), 641-651, (2009).

[16] Sebastian Polit, Jingyan Dong, “Design of High-bandwidth High-precision Flexure-based Nano-Positioning Modules”, Journal of Manufacturing Systems, 28 (2-3), 71-77, (2009).

[15] D.A. Bristow, J. Dong, A.G. Alleyne, P.M. Ferreira, S.M. Salapaka, “High Bandwidth Control of Precision Motion Instrumentation”, Review of Scientific Instruments, 79(10), 103704 (2008).

[14] D. Mukhopadhyay, Jingyan Dong, Eakkachai Pengwang and Placid Ferreira, “A SOI MEMS-based 3-DOF Planar Parallel-Kinematics Nanopositioning Stage”, Sensors and Actuators A: Physical, 147(1), 340-351, (2008).

[13] Jingyan Dong, P. M. Ferreira, “Simultaneous Actuation and Displacement Sensing for Electrostatic Drives”, Journal of Micromechanics and Microengineering, 18(3), 035011 (10 pp) (2008).

[12] Y. H. Jeong, J. Dong, P. M. Ferreira, “Self-calibration of dual-actuated single-axis nanopositioners”, Measurement Science and Technology, 19(4), 045203 (13 pp) (2008).

[11] Jingyan Dong, Srinivasa M. Salapaka, Placid M. Ferreira, “Robust Control of a Parallel Kinematic Nano-Positioner”, ASME Journal of Dynamic Systems, Measurement, and Control, 130(4), 041007 (15 pp) (2008).

[10] Qing Yao, Jingyan Dong, Placid M. Ferreira, “A Novel Parallel-Kinematics Mechanisms for Integrated, Multi-axis Nano-positioning. Part 1: Kinematics and Design for Fabrications”, Precision Engineering, 32(1), 7-19 (2008).

[9] Jingyan Dong, Qing Yao, Placid M. Ferreira, “A Novel Parallel-Kinematics Mechanism for Integrated, Multi-axis Nano-positioning. Part 2: Dynamics, Control and Performance Analysis”, Precision Engineering, 32(1), 20-33 (2008).

[8] Jingyan Dong, Deepkishore Mukhopadhyay, P. M. Ferreira, “Design, Fabrication and Testing of Silicon-on-Insulator (SOI) MEMS Parallel Kinematics XY Stage”, Journal of Micromechanics and Microengineering, 17(6), 1154-1161 (2007).

[7] Jingyan Dong, P.M. Ferreira, J.A. Stori, “Feed-Rate Optimization with Jerk Constraints for Generating Minimum-Time Trajectories”, International Journal of Machine Tools and Manufacture, 47(12-13), 1941-1955 (2007).

[6] A. J. Baca, M. A. Meitl, H. Cho Ko, S. Mack, H. Kim, Jingyan Dong, Placid M. Ferreira, John A. Rogers, “Printable Form of High Quality Single Crystal Silicon Ribbons Generated from Bulk Wafers”, Advanced Functional Materials, 17(16), 3051–3062 (2007).

[5] M. A. Meitl, X. Feng, Jingyan Dong, Etienne Menard, Placid Ferreira, Yonggang Huang, John A. Rogers, “Stress focusing for controlled fracture in MEMS structures”, Applied Physics Letters, 90(8), 083110 (2007).

[4] Q. Yao, J. Dong, P.M. Ferreira, “Design, Analysis, Fabrication and Testing of a Piezo-driven Parallel-Kinematics Micropositioning XY Stage”, International Journal of Machine Tools & Manufacture, 47(6), 946–961 (2007).

[3] J. Dong, J.A. Stori, “Optimal Feed-Rate Scheduling for High-Speed Contouring”, ASME Journal of Manufacturing Science and Engineering, 129(1), 63-76 (2007).

[2] J. Dong, J.A. Stori, “A Generalized Time-Optimal Bi-Directional Scan Algorithm for Constrained Feedrate Optimization”, ASME Journal of Dynamic Systems, Measurement and Control, 128(2), 379-390 (2006).

[1] J. Dong, C. Yuan, J.A. Stori, P.M. Ferreira, “Development of a high-speed 3-axis machine tool using a novel parallel-kinematics X-Y table”, International Journal of Machine Tools and Manufacture, 44(12-13), 1355-1371 (2004).

Conference Proceedings and abstracts

[69] P. Ren, J. Dong, “Direct printing of conductive polymer PEDOT:PSS for foldable transient electronics”, Proceeding of 51th NAMRI/SME North American Manufacturing Research Conference, New Brunswick, NJ, June 2023.

[68] J. Dong, “Direct EHD Printing of VIA Interconnects towards Multi-Layer Flexible and Stretchable Electronics”, TechBlick conference on Digital & 3D Additive Manufacturing of Electronics, Sensors, Photovoltaics, Displays, etc, March 29, 2023

[67] Behera, Amar Kumar; de Sousa, Ricardo Alves; Oleksik, Valentin; Dong, Jingyan; Fritzen, Daniel; “Overcoming the challenges posed by emergency remote teaching in engineering & product design teaching: insights from student preferences”, 24th International Conference on Engineering and Product Design Education, London, UK, September 2022.

[66] Y. Cao, J. Dong, “Freeform printing and modeling of soft twisting electrothermal actuators”, Proceeding of 50^th NAMRI/SME North American Manufacturing Research Conference, June 2022.

[65] P. Ren, J. Dong, “Direct electrohydrodynamic printing of aqueous silver nanowires ink on hydrophobic substrates for flexible and stretchable electronics”, Proceeding of 50^th NAMRI/SME North American Manufacturing Research Conference, June 2022.

[64] Y. Cao, J. Dong, “Fabrication and Self-sensing Control of Soft Electrothermal Actuator”, Proceeding of 48^th NAMRI/SME North American Manufacturing Research Conference, June 2020, Procedia Manufacturing, 48, 43-48, 2020.

[63] J. Deng, H. Zhou, J. Dong, P. Cohen, “Three-Dimensional Nanomolds Fabrication for Nanoimprint Lithography”, Proceeding of 47^th NAMRI/SME North American Manufacturing Research Conference, June 2019, Procedia Manufacturing, 34, 228-232, 2019

[62] J. Deng, J. Dong, P. Cohen, “Rapid Fabrication of SERS Substrates by Ultrasonic Vibration Assisted Nanomachining”, Proceeding of 46^th NAMRI/SME North American Manufacturing Research Conference, June 2018, Procedia Manufacturing, 26, 580-586, 2018.

[61] Xiangcheng Kong, Chuang Wei, Yong Zhu, Paul Cohen, Jingyan Dong, “Modeling of Catalyst-free Growth Process of ZnO Nanowires”, Proceeding of 46^th NAMRI/SME North American Manufacturing Research Conference, June 2018, Procedia Manufacturing, 26, 349-358

[60] Yiwei Han, Jingyan Dong, “Fabrication of Self-Recoverable Flexible and Stretchable Electronic Devices”, Proceeding of 46^th NAMRI/SME North American Manufacturing Research Conference, June 2018. (Winner of NAMRI/SME Outstanding Paper Award in NAMRC46)

[59] Yiwei Han, Jingyan Dong, “High-Resolution Electrohydrodynamic (EHD) Direct Printing of Molten Metal”, Proceeding of 45^th NAMRI/SME North American Manufacturing Research Conference, June 2017, Procedia Manufacturing, 10, 845-850, 2017.

[58] H. Qin, Y.Cai, Jingyan Dong, Y-S. Lee, “Fabrication and electrical characterization of multi-layer capacitive touch sensors on flexible substrates by additive e-jet printing”, Proceeding of 45^th NAMRI/SME North American Manufacturing Research Conference, June 2017.

[57] H. Qin, Y.Cai, Jingyan Dong, Y-S. Lee, “Direct Printing of Capacitive Touch Sensors on Flexible Substrates by Additive e-jet Printing With Silver Nanoink”, ASME 2016 Manufacturing Science and Engineering Conference (MSEC2016), Blacksburg, VA, 2016.

[56] J. Deng, J. Dong, P. Cohen, “High Rate 3D Nanofabrication by AFM-Based Ultrasonic Vibration Assisted Nanomachining”, Proceeding of 44^th NAMRI/SME North American Manufacturing Research Conference, June 2016, Procedia Manufacturing, 5, 1283-1294, 2016

[55] Yiwei Han, Jingyan Dong, “Design of Integrated Ring Extractor for High Resolution Electrohydrodynamic (EHD) 3D Printing”, Proceeding of 44^th NAMRI/SME North American Manufacturing Research Conference, June 2016, Procedia Manufacturing, 5, 1031-1042

[54] Xiangcheng Kong, Paul Cohen, Jingyan Dong, “Predictive Modeling of Feature Dimension for Tipbased Nano Machining Process”, Proceeding of 44^th NAMRI/SME North American Manufacturing Research Conference, June 2016.

[53] Yiwei Han, Chuang Wei, Jingyan Dong, “Droplet Formation and Settlement of Phase-Change Ink in High Resolution Electrohydrodynamic (EHD) 3D Printing”, Proceeding of 43^th NAMRI/SME North American Manufacturing Research Conference, June 2015. (Winner of NAMRI/SME Outstanding Paper Award in NAMRC43)

[52] Akilan Bharathi, Jingyan Dong, “A Smooth Trajectory Generation Algorithm for Addressing Higher-Order Dynamic Constraints in Nanopositioning Systems”, Proceeding of 43^th NAMRI/SME North American Manufacturing Research Conference, June 2015.

[51] X. Kong, L. Zhang, J. Dong, P. Cohen, “Machining Force Modeling of Vibration-assisted Nano-machining Process”, ASME 2015 Manufacturing Science and Engineering Conference (MSEC2015), Charlotte, NC, 2015.

[50] J. Deng, L. Zhang, J. Dong, P. Cohen, “AFM-based 3D Nanofabrication using Ultrasonic Vibration Assisted Nanomachining”, Proceeding of NAMRI/SME North American Manufacturing Research Conference, Vol. 43, June 2015.

[49] H. Qin, Jingyan Dong, Y-S. Lee, “Electrohydrodynamic jet printing of silver seeds: Micro scale patterning by electroless copper deposition”, ASME 2015 Manufacturing Science and Engineering Conference (MSEC2015), Charlotte, NC, 2015.

[48] Akilan Bharathi, Jingyan Dong, “A Smooth Trajectory Generation Algorithm for Addressing Higher-Order Dynamic Constraints in Nanopositioning Systems”, 2015 Industrial and Systems Engineering Research Conference (ISERC2015), Nashville, Tennessee, May 2015.

[47] Xiangcheng Kong, Jia Deng, Jingyan Dong, Paul Cohen, “3D Nanofabrication and Force Modeling of Ultrasonic Vibration Assisted Nanomachining”, 2015 Industrial and Systems Engineering Research Conference (ISERC2015), Nashville, Tennessee, May 2015.

[46] Yiwei Han, Chuang Wei, Jingyan Dong, “Modeling of Droplet Formation and Settlement for High Resolution Electrohydrodynamic (EHD) 3D Printing”, 2015 Industrial and Systems Engineering Research Conference (ISERC2015), Nashville, Tennessee, May 2015.

[45] Akilan Bharathi, Jingyan Dong, “Time-Optimal Feed-Rate Scheduling for Nanopositioning Systems with Confined Contouring Error”, Proceeding of NAMRI/SME North American Manufacturing Research Conference, Vol. 42, pp. 372-380, June 2014.

[44] C. Wei, H. Qin, C-P, Chiu, Y-S. Lee, J. Dong, “Drop-on-Demand E-Jet Printing of Continuous Features on Electronic Insulation Substrates”, Proceeding of NAMRI/SME North American Manufacturing Research Conference, Vol. 42, pp. 345-352, June 2014. (Winner of NAMRI/SME Outstanding Paper Award (Honorable Mention))

[43] Qin, H., C. Wei, Jingyan Dong, Y-S. Lee, “Direct Fabrication of Highly Conductive Micro Silver Tracks Using Electrohydrodynamic Jet Printing for Sub-20 µm Micro-Manufacturing”, ASME 2014 Manufacturing Science and Engineering Conference (MSEC2014), Detroit, MI, 2014.

[42] Akilan Bharathi, Jingyan Dong, “Time Optimal Feedrate Planning for Nanopositioning Systems with Accuracy Constraints”, 2014 Industrial and Systems Engineering Research Conference (ISERC2014), Montreal, Canada.

[41] C. Wei, H. Qin, C-P. Chiu, Y-S. Lee, J. Dong, “E-Jet Printing on Highly Insulating Substrates with AC-Pulse Modulation”, 2014 Industrial and Systems Engineering Research Conference (ISERC2014), Montreal, Canada.

[40] Qin, H., C. Wei, Jingyan Dong, Y-S. Lee, “AC-Pulse Modulated Electrohydrodynamic (EHD) Jet Printing of Conductive Micro Silver Tracks for Micro-Manufacturing,” The FAIM 2014 Flexible Automation and Intelligent Manufacturing Conference, San Antonio, TX, May 20-23, 2014

[39] C. Wei, J. Dong, “Hybrid Hierarchical Fabrication of Three-Dimensional Scaffolds”, Transactions of the North American Manufacturing Research Institution of SME, Vol. 41, pp. 541-547, 2013.

[38] L. Zhang, J. Dong, P. Cohen, “Machining Depth Regulation and Friction Reduction in AFM-based Ultrasonic Vibration Assisted Nanomachining”, Transactions of the North American Manufacturing Research Institution of SME, Vol. 41, pp. 482-488, 2013.

[37] C. Wei, J. Dong, “Fabrication of Multi-scale Hierarchical Scaffolds Using Thermal Extrusion and Electrohydrodynamic (EHD) Jet Plotting”, 2013 Industrial and Systems Engineering Research Conference (ISERC2013), San Juan, Puerto Rico.

[36] L. Zhang, J. Dong, P. Cohen, “Depth Regulation and Friction Reduction in Ultrasonic Vibration Assisted Nanomachining”, 2013 Industrial and Systems Engineering Research Conference (ISERC2013), San Juan, Puerto Rico.

[35] C. Wei, L. Cai, S. Wang, J. Dong, “Multi-Material Fabrication of Tissue Engineering Scaffold”, Transactions of the North American Manufacturing Research Institution of SME, vol. 40, pp. 126–132, 2012.

[34] L. Zhang, J. Dong, “Ultrasonic Vibration Assisted Nanomachining on PMMA with an AFM”, Transactions of the North American Manufacturing Research Institution of SME, vol. 40, pp. 631–637, 2012.

[33] Golbarg Kazemi Tutunchi, Chuang Wei, Rohan Shirwaiker, Jingyan Dong, “A Process Engineering Perspective of Scaffold Fabrication Methods in Regenerative Medicine: A Review”, 2012 Industrial and Systems Engineering Research Conference (ISERC2012), Orlando, FL.

[32] C. Wei, J. Dong, “Multi-Material Fabrication of Tissue Engineering Scaffold”, 2012 Industrial and Systems Engineering Research Conference (ISERC2012), Orlando, FL.

[31] L. Zhang, J. Dong, “High-rate Tunable Nanomachining with an Atomic Force Microscope”, 2012 Industrial and Systems Engineering Research Conference (ISERC2012), Orlando, FL.

[30] B. J. Koo, J. Dong, P. M. Ferreira, “A Two Degree-of-Freedom SOI-MEMS Translation Stage with Closed Loop Positioning”, 2011 American Society for Precision Engineering Annual Meeting.

[29] Lei Cai, Li Zhang, Jingyan Dong, Shanfeng Wang, “Biodegradable Elastomeric Substrates with Micro-fabricated Grooves for Promoting Neurite Extension”, ACS meeting 2011.

[28] Kan Wang, Lei Cai, Li Zhang, Jingyan Dong, Shanfeng Wang, “Biodegradable Elastomeric Substrates with Concentric Microgrooves for Regulating MC3T3 Cell Behavior”, ACS meeting 2011.

[27] B. J. Koo, J. Dong, P. M. Ferreira, “A Two Degree-of-Freedom SOI-MEMS Translation Stage with Closed Loop Positioning”, Transducers’11: The 16th International Conference on Solid-State Sensors, Actuators and Microsystems.

[26] L. Zhang, J. Dong, “High-Yield Nano-Milling on Polymethylmethacrylate (PMMA) Using Atomic Force Microscope”, 2011 Industrial Engineering Research Conference (IERC2011), Reno, Nevada, May 2011.

[25] C. Wei, J. Dong, “Multi-nozzle Deposition and Multi-Materials Integration of Tissue Engineering scaffolds “, 2011 Industrial Engineering Research Conference (IERC2011), Reno, Nevada, May 2011.

[24] L. Zhang, J. Dong, “Design and Fabrication of a MEMS-based Active Probe for Cellular Force Sensing and Manipulation”, 2011 Industrial Engineering Research Conference (IERC2011), Reno, Nevada, May 2011.

[23] S. Polit, J. Dong, “Development of an Ultra-bandwidth Nanopositioner for High-Throughput Nano-Manufacturing and Metrology”, 2011 Industrial Engineering Research Conference (IERC2011), Reno, Nevada, May 2011.

[22] Jingyan Dong, Salapaka Salapaka, Placid Ferreira, “A Configurable Platform for Multi-cantilever High-Throughput Nanoscale Metrology and Manufacturing”, NSF CMMI Engineering Research and Innovation Conference, Atlanta, Georgia, January 2011.

[21] Cai L., Zhang L., Dong J., Wang S., Biodegradable Elastomeric Substrates with Micro-fabricated Grooves for Promoting Neurite Extension. 36th Society for Biomaterials Annual Meeting and Exposition, April 13-16, 2011, Orlando, FL.

[20] Wang K., Cai L., Zhang L., Dong J., Wang S., Biodegradable Elastomeric Substrates with Concentric Microgrooves for Regulating MC3T3Cell Behavior. 36th Society for Biomaterials Annual Meeting and Exposition, April 13-16, 2011, Orlando, FL.

[19] Li Zhang, Jingyan Dong, “A SOI-MEMS-based Single Axis Active Probe for Cellular Force Sensing and Cell Manipulation”, ASME 2010 International Mechanical Engineering Congress & Exposition

[18] Chuang Wei, Bhushan Sonawane, Lei Cai, Shanfeng Wang, Jingyan Dong, “Direct-Deposition and Multiple Materials Integration of Tissue Engineering scaffolds”, ASME 2010 International Mechanical Engineering Congress & Exposition.

[17] Sebastian Polit, Jingyan Dong, “Development of a High-Bandwidth XY Nanopositioning Stage for High-Rate Micro/Nano Manufacturing”, ASME 2010 International Mechanical Engineering Congress & Exposition.

[16] Jingyan Dong, Placid M. Ferreira, “Nano-Manipulation Device with Parallel Kinematic XY Micro-Positioning Stage and Integrated Active Cantilever”, Proceedings of the ASME 2009 International Mechanical Engineering Congress & Exposition, Lake Buena Vista, Florida, November 2009.

[15] Jingyan Dong, Salapaka Salapaka, Placid Ferreira, “A Configurable Platform for Multi-cantilever High-Throughput Nanoscale Metrology and Manufacturing”, NSF CMMI Engineering Research and Innovation Conference, Honolulu, Hawaii, June 2009.

[14] Sebastian Polit, Jingyan Dong, “High-bandwidth Nano-Positioning Modules for High-throughput Micro/Nano Manufacturing”, Proceedings of the 2009 Industrial Engineering Research Conference, Miami, Florida, June 2009.

[13] Jingyan Dong, Deepkishore Mukhopadhyay, Eakkachai Pengwang, Placid M Ferreira, “MEMS Devices for In-situ Testing and Metrology”, Society of Engineering Science the 45^th Annual Technical meeting, University of Illinois at Urbana-Champaign, 2008.

[12] Jingyan Dong, Deepkishore Mukhopadhyay, Eakkachai Pengwang, Placid M Ferreira, “Parallel kinematic MEMS stages for high precision nano positioning and manipulation”, 2008 American Society for Precision Engineering Annual Meeting and the 12th International Conference on Precision Engineering (ICPE), Portland, Oregon, 2008.

[11] Y. H. Jeong, J. Dong, P. M. Ferreira, “Self-calibration of a dual-actuated single-axis nanopositioner using measurement transitivity with extensions to calibration of two-axis systems”, Instrumentation, Metrology, and Standards for Nanomanufacturing II, Nanoscience and Engineering Symposia of the SPIE Optics and Photonics, San Diego, California, 2008.

[10] D. Mukhopadhyay, Jingyan Dong, Placid M. Ferreira, “Parallel Kinematic Mechanism based monolithic XY micro-positioning stage”, SPIE Photonics West, MOEMS-MEMS Conference, San Jose, California, January 2008.

[9] B.E. Helfrich, C. Lee, D.A. Bristow, X. Xiaohui, J. Dong, A.G. Alleyne, S.M. Salapaka, P.M. Ferreira, “Combined H_∞ and Iterative Learning Control Design with Application to Nanopositioning Systems”, 2008 American Control Conference, Seattle, Washington, 2008.

[8] P. M. Ferreira, J. Dong, D. Mukhopadhyay, Q. Yao, E. Pengwang, “Study of Low Degree-of-Freedom Parallel Kinematics for Multi Scale Manufacturing Applications,” Proceedings of 2008 NSF CMMI Engineering Research and Innovation Conference, Knoxville, Tennessee, January 2008.

[7] Jingyan Dong, Young Hun Jeong, Placid M. Ferreira, “Design and Analysis of a Micro-Positioning Module for Multi-degree-of-freedom Micro-positioners”, 2^nd International Conference on Micromanufacturing (ICOMM 2007), Greenville, South Carolina, September 2007.

[6] Jingyan Dong, Srinivasa M. Salapaka, Placid M. Ferreira, “Robust MIMO Control of a Parallel Kinematics Nano-Positioner for High Resolution High Bandwidth Tracking and Repetitive Tasks”, 46th IEEE Conference on Decision and Control, New Orleans, Louisiana, 2007.

[5] Jingyan Dong, Srinivasa M. Salapaka, Placid M. Ferreira, “MIMO H_∞Control of a Parallel Kinematic XYZ Nano-Positioner”, ASME International Mechanical Engineering Congress & Exposition 2007, IMECE 2007-61365.

[4] P. M. Ferreira, J. Dong, D. Mukhopadhyay, Q. Yao, E. Pengwang, “Study of Low Degree-of-Freedom Parallel Kinematics for Multi Scale Manufacturing Applications,” Proceedings of 2006 NSF Design, Service, and Manufacturing Grantees and Research Conference, St. Louis, Missouri, June 2006.

[3] Q. Yao, Jingyan Dong, Deepkishore Mukhopadhyay, Eakkachai Pengwang and Placid M. Ferreira, “Kinematic & Dynamic Analysis of a Class of Parallel Kinematic Schemes for Multi Axis Micro and Nano Positioning,” 1^st International Conference on Micromanufacturing (ICOMM 2006), University of Illinois at Urbana-Champaign, September 2006.

[2] J. Dong, J.A. Stori, “A Generalized Time-Optimal Bi-Directional Scan Algorithm for Constrained Feedrate Optimization”, Proceedings of ASME International Mechanical Engineering Congress & Exposition, p.725-739, Anaheim, CA, November 13-19, 2004.

[1] J. Dong, J.A. Stori, “Optimal Feed-Rate Scheduling for High-Speed Contouring”, Proceedings of ASME International Mechanical Engineering Congress & Exposition, p.497-513, Washington, DC, November 15-21, 2003.

Conference Presentations

[1] “Direct fabrication of Flexible and Stretchable Electronics by Electrohydrodynamic (EHD) Printing”, Invited Talk in the workshop of “Advanced Manufacturing of Flexible Electronics and Nondestructive Testing for Quality Assurance”, 2022 IISE annual conference, May 21, 2022, Seattle, WA.

[2] “Direct fabrication of Flexible and Stretchable Conductor by Electrohydrodynamic (EHD) Printing”, Invited Talk in the symposium of “Conductive Materials Reliability in Flexible Electronics”, 2018 MRS Fall meeting, November 29, 2018, Boston, MA.

[3] “A Smooth Trajectory Generation Algorithm for Addressing Higher-Order Dynamic Constraints in Nanopositioning Systems”, 2015 Industrial and Systems Engineering Research Conference (ISERC2015), Nashville, Tennessee, May 2015.

[4] “3D Nanofabrication and Force Modeling of Ultrasonic Vibration Assisted Nanomachining”, 2015 Industrial and Systems Engineering Research Conference (ISERC2015), Nashville, Tennessee, May 2015.

[5] “Modeling of Droplet Formation and Settlement for High Resolution Electrohydrodynamic (EHD) 3D Printing”, 2015 Industrial and Systems Engineering Research Conference (ISERC2015), Nashville, Tennessee, May 2015.

[6] “Time-Optimal Feed-Rate Scheduling for Nanopositioning Systems with Confined Contouring Error”, 42nd Annual North American Manufacturing Research Conference (NAMRC42), Detroit, Michigan, June 2014.

[7] “Modulated Drop-on-Demand E-Jet Printing of Continuous Features on Electronic Insulation Substrates”, 42nd Annual North American Manufacturing Research Conference (NAMRC42), Detroit, Michigan, June 2014.

[8] “Time Optimal Feedrate Planning for Nanopositioning Systems with Accuracy Constraints”, 2014 Industrial and Systems Engineering Research Conference (ISERC2014), Montreal, Canada, June 2014.

[9] “E-Jet Printing on Highly Insulating Substrates with AC-Pulse Modulation”, 2014 Industrial and Systems Engineering Research Conference (ISERC2014), Montreal, Canada, June 2014.

[10] “Hybrid Hierarchical Fabrication of Three-Dimensional Scaffolds”, 41th Annual North American Manufacturing Research Conference (NAMRC41), Madison, Wisconsin, June 2013.

[11] “Machining Depth Regulation and Friction Reduction in AFM-based Ultrasonic Vibration Assisted Nanomachining”, 41th Annual North American Manufacturing Research Conference (NAMRC41), Madison, Wisconsin, June 2013.

[12] “Fabrication of Multi-scale Hierarchical Scaffolds Using Thermal Extrusion and Electrohydrodynamic (EHD) Jet Plotting”, 2013 Industrial and Systems Engineering Research Conference (ISERC2013), San Juan, Puerto Rico, May 2013.

[13] “Depth Regulation and Friction Reduction in Ultrasonic Vibration Assisted Nanomachining”, 2013 Industrial and Systems Engineering Research Conference (ISERC2013), San Juan, Puerto Rico, May 2013.

[14] “A Systematic Modeling and Optimization Framework towards Optimal Manufacturing Performance”, Plenary lecture at International Workshop on Mathematics and Algorithms for Computer-Aided Manufacturing, Engineering and Numerical Control (MAMENC 2012), Beijing, October 2012.

[15] “Multi-Material Fabrication of Tissue Engineering Scaffold”, 40th Annual North American Manufacturing Research Conference (NAMRC40), South bend, Indiana, June 2012.

[16] “Ultrasonic Vibration Assisted Nanomachining on PMMA with an AFM”, 40th Annual North American Manufacturing Research Conference (NAMRC40), South bend, Indiana, June 2012.

[17] “Multi-Material Fabrication of Tissue Engineering Scaffold”, 2012 Industrial Engineering Research Conference (ISERC2012), Orlando, Florida, May 2012.

[18] “High-rate Tunable Nanomachining with an Atomic Force Microscope”, 2012 Industrial Engineering Research Conference (ISERC2012), Orlando, Florida, May 2012.

[19] “High-bandwidth Nanopositioning for High-Yield Nano-Manufacturing and Metrology”, invited talk at INFORMS 2011 Annual Meeting, Charlotte, North Carolina, November 2011.

[20] “High Speed tip-based ultrasonic Nanomachining Using Atomic Force Microscope”, invited talk at INFORMS 2011 Annual Meeting, Charlotte, North Carolina, November 2011.

[21] “High-Yield Nano-Milling on Polymethylmethacrylate (PMMA) Using Atomic Force Microscope”, 2011 Industrial Engineering Research Conference (IERC2011), Reno, Nevada, May 2011.

[22] “Development of an Ultra-bandwidth Nanopositioner for High-Throughput Nano-Manufacturing and Metrology”, 2011 Industrial Engineering Research Conference (IERC2011), Reno, Nevada, May 2011.

[23] “A SOI-MEMS-based Single Axis Active Probe for Cellular Force Sensing and Cell Manipulation”, the 2010 ASME International Mechanical Engineering Congress & Exposition, Vancouver, November 2010.

[24] “Direct-Deposition and Multiple Materials Integration of Tissue Engineering Scaffolds”, the 2010 ASME International Mechanical Engineering Congress & Exposition, Vancouver, November 2010.

[25] “Development of a High-Bandwidth XY Nanopositioning Stage for High-Rate Micro/Nano Manufacturing”, the 2010 ASME International Mechanical Engineering Congress & Exposition, Vancouver, November 2010.

[26] “Nano-Manipulation Device with Parallel Kinematic XY Micro-Positioning Stage and Integrated Active Cantilever”, the 2009 ASME International Mechanical Engineering Congress & Exposition, Lake Buena Vista, Florida, November 2009.

[27] “High-bandwidth Nano-Positioning Modules for High-throughput Micro/Nano Manufacturing”, the 2009 Industrial Engineering Research Conference, Miami, Florida, June 2009.

[28] “Parallel-Kinematics MEMS Stages for High Precision Nanopositioning and Manipulation”, The 23rd American Society for Precision Engineering Annual Meeting and the 12th International Conference on Precision Engineering (ICPE), Portland, Oregon, October 2008.

[29] “Mechatronics and Metrology to Improve Quality and Reliability in Nanomanufacturing”, invited talk at the session of Quality, Statistics and Reliability in Nano-Manufacturing: Research Advances, Perspectives and Issues, INFORMS Annual Meeting, October 12-15, 2008, Washington, DC.

[30] “Robust MIMO Control of a Parallel Kinematics Nano-Positioner for High Resolution High Bandwidth Tracking and Repetitive Tasks”, 46th IEEE Conference on Decision and Control, New Orleans, Louisiana, 2007.

[31] “MIMO H∞ Control of a Parallel Kinematic XYZ Nano-Positioner”, ASME International Mechanical Engineering Congress & Exposition, Seattle, Washington, November 2007.

[32] “Design and analysis of a micro-positioning module for multi-degree-of-freedom micro-positioners”, 2nd International Conference on Micromanufacturing (ICOMM), Greenville, South Carolina, September 2007.

[33] “Study of Low Degree-of-Freedom Parallel Kinematics for Multi Scale Manufacturing Applications,” 2006 NSF Design, Service, and Manufacturing Grantees and Research Conference, St. Louis, Missouri, June 2006.

[34] “A Generalized Time-Optimal Bi-Directional Scan Algorithm for Constrained Feedrate Optimization”, Session DSC-8, Control of Manufacturing Machines, Processes, and Systems, ASME International Mechanical Engineering Congress, Anaheim, California, 2004.

Invited Talks and Seminars

[2] “Enabling Printing Processes for Viable Micro/Nano manufacturing”, Departmental Seminar, Department of Industrial and Systems Engineering, North Carolina State University, September 2019.

[3] “Direct fabrication of Flexible and Stretchable Conductor by Electrohydrodynamic (EHD) Printing”, Invited Talk in the symposium of “Conductive Materials Reliability in Flexible Electronics”, 2018 MRS Fall meeting, November 29, 2018, Boston, MA.

[4] “High Resolution Printing of Molten Metal Ink for Flexible/Stretchable Conductor with Self-Healing Capability”, Invited Webinar, Elisa Corporation Finland, January 15, 2018.

[5] “Electrohydrodynamic (EHD) 3D Printing for High-Resolution Additive Manufacturing”, Invited poster presentation, NSF workshop on Accelerating NSF Research in Additive Manufacturing toward Industrial Applications, August 18, 2017.

[6] “High-Resolution Electrohydrodynamic (EHD) Direct Printing of Molten Metal”, Invited Seminar, Accelerated Certification of Additively Manufactured Metals (ACAMM), Lawrence Livermore National Laboratory, August 4, 2017.

[7] “Enabling Processes and Tools for High-Rate Viable Tip-base Nanomachining”, Invited Seminar, Department of Industrial Engineering, University of Pittsburgh, October 22, 2015.

[8] “Electrohydrodynamic (EHD) Printing for High Resolution 2D Patterning and Additive Manufacturing”, Invited Seminar, Department of Industrial and Systems Engineering, University of Southern California, September 29, 2015.

[9] “Electrohydrodynamic (EHD) 3D Printing for Super-Resolution Additive Manufacturing”, Invited poster presentation, NSF/DOE Workshop on Additive Manufacturing, June 3, 2015.

[10] “Enabling Processes and Tools for High-Rate Viable Nanomanufacturing”, Departmental Seminar, Department of Industrial and Systems Engineering, North Carolina State University, November 2013.

[11] “A Systematic Modeling and Optimization Framework towards Optimal Manufacturing Performance”, Plenary lecture at International Workshop on Mathematics and Algorithms for Computer-Aided Manufacturing, Engineering and Numerical Control, Beijing, October 2012.

[12] “High-bandwidth Nanopositioning for High-Yield Nano-Manufacturing and Metrology”, invited talk at INFORMS 2011 Annual Meeting, Charlotte, North Carolina, November 2011.

[13] “High Speed tip-based ultrasonic Nanomachining Using Atomic Force Microscope”, invited talk at INFORMS 2011 Annual Meeting, Charlotte, North Carolina, November 2011.

[14] “Enabling Technologies for High-Throughput Robust Nanomanufacturing”, Advanced Materials and Manufacturing Seminar, College of Engineering, North Carolina State University, November 2009.

[15] “Mechatronics and Metrology to Improve Quality and Reliability in Nanomanufacturing”, invited talk at the session of Quality, Statistics and Reliability in Nano-Manufacturing: Research Advances, Perspectives and Issues, INFORMS Annual Meeting, October 12-15, 2008, Washington, DC.

[16] “Mechatronics for Micro/Nano Manipulation and Manufacturing Systems”, Department of Mechanical, Aerospace & Nuclear Engineering, Rensselaer Polytechnic Institute, April 2008.

[17] “Mechatronics for Micro/Nano Manipulation and Manufacturing Systems”, Department of Mechanical Engineering, Texas Tech University, April 2008.

[18] “Mechatronics for Micro/Nano Manipulation and Manufacturing Systems”, Department of Mechanical Engineering, University of Akron, March 2008.

[19] “Mechatronics for Micro/Nano Manufacturing Systems”, Edward P. Fitts Department of Industrial and Systems Engineering, North Carolina State University, February 2008.

[20] “Mechatronics for Micro/Nano Manufacturing Systems”, School of Industrial Engineering, Purdue University, January 2008.

[21] “Multi-Scale Positioning Systems Based on Parallel Kinematic Mechanisms”, University of North Carolina at Charlotte, March 2007.

[22] “Multi-Scale Parallel Kinematic Positioning System for Micro/Nano/Macro Manipulation and Manufacturing”, Department of Mechanical Engineering, Iowa State University, March 2007.

Patents

[1] Yong Zhu, Jingyan Dong, Zheng Cui, and Yiwei Han, “Electrohydrodynamic printing of nanomaterials for flexible and stretchable electronics”, US Patent No. 11,230,134.

[2] Jingyan Dong, Placid Ferreira, “Displacement actuation and sensing for an electrostatic drive”, US Patent number: US 8,076,893.

[3] Placid Ferreira, Jingyan Dong, Deepkishore Mukhopadhyay, “High precision silicon-on-insulator mems parallel kinematic stages”, US 8,310,128.