Researchers at the University of Texas at Dallas, alongside collaborators from other institutions and industry partners, are pioneering indium-based materials for next-generation computer chip manufacturing. Supported by a $1.9 million National Science Foundation grant under the FuSe2 program, their work focuses on enhancing extreme ultraviolet (EUV) lithography, a key process in semiconductor fabrication. This shift to high-energy photons enables smaller, more efficient chip designs. Innovations include photonic curing to optimize indium oxide properties and potential applications in 3D circuits. The project integrates computational modeling, synthetic chemistry, and EUV testing, while fostering industry-relevant workforce training. Graduate researcher Marisol Valdez has contributed significantly, earning accolades for her role in foundational studies.
For more details, please continue reading the full article under the following link:
In general, if you enjoy reading this kind of scientific news articles, I would also be keen to connect with fellow researchers based on common research interests in materials science, including the possibility to discuss about any potential interest in the Materials Square cloud-based online platform ( www.matsq.com ), designed for streamlining the execution of materials and molecular atomistic simulations!
Best regards,
Dr. Gabriele Mogni
Technical Consultant and EU Representative
Virtual Lab Inc., the parent company of the Materials Square platform
Website: Home | Virtual Lab Inc.
Email: gabriele@simulation.re.kr
#materials #materialsscience #materialsengineering #computationalchemistry #modelling #chemistry #researchanddevelopment #research #MaterialsSquare #ComputationalChemistry #Tutorial #DFT #simulationsoftware #simulation