High Throughput Material Development for Extreme Environment Printed Electronics

High-temperature materials are critical for applications in harsh-environment circuitry, where devices must operate reliably under extreme thermal, chemical, and mechanical stress. In this Master Class, Dr. Shenqiang (Shen) Ren will present a high-throughput ink materials development strategy enabled by non-equilibrium processing and hybrid additive manufacturing. This approach enables rapid synthesis, combinatorial screening, and direct integration of functional materials onto diverse substrates. The resulting materials exhibit strong electrical performance, robust adhesion, and long-term stability under harsh operating conditions. This high-throughput framework accelerates the discovery and deployment of printable materials for interconnects, heaters, and EMI shielding, providing a versatile pathway toward next-generation printed electronics designed for extreme environments.

ABOUT THE SPEAKER

Shenqiang (Shen) Ren, PhD
Dr. Shenqiang Ren is a Professor of Materials Science and Engineering at the University of Maryland, College Park, with research interests in emerging functional and structural materials. He received his Ph.D. in Materials Science and Engineering from the University of Maryland, College Park, and subsequently completed postdoctoral training at the Massachusetts Institute of Technology (MIT).