Topics
ISPSA 2026 Program Committee invites high-quality research papers in all areas of semiconductor physics and related applications. Topics of interest include, but are not limited to:
- Novel semiconductor materials and devices enabling higher performance, lower power consumption, and improved scalability; compound semiconductors, SiC, GaN, Ga₂O₃, and wide-bandgap systems; advanced doping and defect-engineering techniques; new fabrication and integration technologies for halide perovskites, oxide semiconductors and ferroelectrics; thermoelectric devices; emerging memory technologies; quantum metrology and inspection for new memory; and power semiconductors for next-generation electronics.
- Quantum computing, communication, and sensing systems based on semiconductor, photonic, and superconducting platforms; qubit materials and coherence control; hybrid quantum-classical integration; scalable architectures and error-correction techniques; emerging quantum devices for secure information processing and ultra-sensitive detection.
- Synthesis, characterization, and device applications of transition-metal dichalcogenides (TMDs), graphene, h-BN, and other 2D materials; electronic, optical, and excitonic phenomena in atomically thin structures; van der Waals heterostructures and strain-engineered devices; challenges in large-area growth and integration.
- Neuromorphic, memristive, and reservoir-computing hardware using novel materials and devices; emerging materials-based device array; spiking neural networks and deep neural networks based on emerging devices; machine learning algorithms and system architectures based on emerging materials and devices.
- Optoelectronic and photonic device technologies spanning lasers, LEDs, detectors, and integrated photonic circuits; nanophotonic structures, metasurfaces, and nonlinear optics; light–matter interactions in low-dimensional materials; photonic integration for communication, sensing, and display systems.
- Semiconductor and hybrid materials for solar cells, thermoelectrics, batteries, and hydrogen generation; perovskite and tandem photovoltaic technologies; interface and defect control for energy-conversion efficiency; flexible and transparent energy devices for sustainable electronics.
- Theoretical modeling, synthesis, surface chemistry, and optical/electronic properties of colloidal semiconductor nanocrystals and quantum dots; charge and energy transfer in nanocrystal assemblies; infrared-active nanomaterials for photodetectors and image sensors; color-conversion and light-emission applications; scalable processing for displays, lighting, and bio-imaging.
- Flexible, stretchable, and wearable sensor platforms integrating semiconductors, polymers, and nanomaterials; tactile, biochemical, and environmental sensing; low-power circuits and wireless data systems; reliability, mechanical durability, and human-machine interfaces.
- Frontier developments bridging academia and industry in semiconductor and display technologies; manufacturing innovation, yield improvement, and cost-reduction strategies; case studies of industrial implementation and technology transfer; collaborative R&D frameworks for next-generation devices.
- Synthesis and applications of carbon-based nanomaterials including CNTs, graphene, nanodiamonds, and Mxenes; electrical, thermal, structural, and mechanical property control; integration into transistors, interconnects, sensors, composites, and advanced applications; standardization and reliability assessment for industrial adoption.
