Paper 13350-8
Paper 13350-8
Additive nanomanufacturing of multimaterial and multifunctional electronics (Invited Paper)
28 January 2025 • 8:00 AM - 8:30 AM PST | Moscone South, Room 308 (Level 3)
Abstract
Additively manufactured flexible hybrid electronics (FHEs) have emerged as a remarkable technology due to the simple, cost-effective fabrication, reduced e-waste, and development of multifunctional devices. The current prinitng ecosystem mainly relies on ink-based technologies such as inkjet and aerosol jet printers, which suffer from expensive and time-consuming formulation procedures, contaminations, and limited materials sources, making it challenging to print pure and multimaterial devices. This talk demonstrates a novel multi-laser-based additive nanomanufacturing (ANM) technique that allows dry, pure, solvent-free printing of various functional materials devices on different substrates.
Presenter
Auburn Univ. (United States)
Bio: Dr. Mahjouri-Samani is an associate professor of electrical and computer engineering (ECE) at Auburn University, leading the Laser-Assisted Science and Engineering group (LASE). He received his BS (2008) and Ph.D. (2013) degrees in ECE from the University of Nebraska-Lincoln and spent four years as a postdoctoral research associate at Oak Ridge National Laboratory (ORNL). Currently, Dr. Mahjouri-Samani's research group is focused on investigating the laser-materials interactions in laser-based synthesis, laser processing, and laser diagnostics of emerging materials and devices. His current research activities include: Pioneering the laser-based additive nanomanufacturing of multifunctional materials and hybrid structures; Understanding the laser-materials interactions in additive manufacturing processes; Investigating the laser-based synthesis and processing of nanoscale and quantum materials; and Bridging AM and quantum materials research.