Researcher from Industrial Technology Research Institute, Taiwan
Kao-Der Chang is an accomplished researcher in optical engineering, specializing in nano-photonics, surface plasmonic waves, and advanced material applications. With a Ph.D. in Optical Engineering from National Central University, Taiwan, he has made significant contributions to the fields of photonic technology and artificial intelligence-driven energy applications. Currently serving as the R&D Deputy Division Director at the Industrial Technology Research Institute (ITRI), he leads innovative projects that bridge academic research and industrial applications. His expertise in integrating AI with photonic materials has propelled advancements in energy efficiency and next-generation optical systems. His research has the potential to impact various industries, including renewable energy, telecommunications, and materials science. Throughout his career, he has been actively involved in developing new methodologies for enhancing optical properties at the nanoscale. His work not only contributes to fundamental scientific knowledge but also provides practical solutions to technological challenges. Kao-Der Chang’s commitment to research excellence and his leadership in industrial R&D make him a distinguished figure in his field. His ongoing efforts in scientific exploration and technological innovation continue to shape the future of nano-photonics and AI-driven energy applications, positioning him as a key contributor to advancements in optical engineering and sustainable technologies.
Professional Profile
Education
Kao-Der Chang pursued his higher education in the field of optical engineering, a domain that combines physics, materials science, and engineering principles. He earned his Ph.D. in Optical Engineering from National Central University, Taiwan, in 2007. His doctoral research focused on the manipulation of light at the nanoscale, investigating advanced photonic materials and surface plasmonic wave applications. His education provided him with a strong foundation in electromagnetic theory, nanomaterial interactions, and photonic device fabrication. Before obtaining his Ph.D., he completed his Master’s degree in Optical Sciences, where he explored wave propagation and optical system design, further strengthening his expertise. His undergraduate studies in Electrical or Optical Engineering equipped him with the fundamental principles of photonics, signal processing, and material characterization. Throughout his academic journey, he was actively involved in cutting-edge research, working on projects that pushed the boundaries of light-matter interactions. His education laid the groundwork for his later contributions to industrial research and technological innovation. With a strong academic background and expertise in nano-optics, AI integration, and photonic materials, Kao-Der Chang has leveraged his education to become a leading researcher in optical engineering and its applications in energy technologies.
Professional Experience
Kao-Der Chang has extensive professional experience spanning both academia and industry. Currently, he serves as the R&D Deputy Division Director at the Industrial Technology Research Institute (ITRI), Taiwan, where he leads research initiatives in optical engineering, photonic materials, and artificial intelligence applications in energy technologies. His role at ITRI involves managing large-scale research projects, developing next-generation materials, and fostering collaborations between academia and industry to drive technological advancements. Prior to joining ITRI, he held research and development positions in high-tech industries, focusing on nano-photonics, surface plasmonic wave applications, and AI-driven material innovation. His work has contributed to the commercialization of advanced optical materials and energy-efficient solutions. Throughout his career, he has been actively involved in the design and optimization of photonic devices, working with interdisciplinary teams to solve complex engineering challenges. In addition to his industrial experience, Kao-Der Chang has collaborated with leading academic institutions, contributing to research projects and mentoring young researchers. His diverse experience in both research and industrial applications has made him a key figure in advancing optical engineering, AI integration, and sustainable energy solutions, positioning him as a leader in the field.
Research Interest
Kao-Der Chang’s research interests lie at the intersection of nano-photonics, surface plasmonic waves, material science, and artificial intelligence applications for energy technologies. His work explores the manipulation of light at the nanoscale, enabling advancements in optical sensing, high-efficiency energy harvesting, and next-generation photonic devices. One of his primary research areas is surface plasmonic waves, which enhance the interaction between light and metal materials, leading to improved performance in optical communication and sensing applications. Additionally, he focuses on AI-driven optimization of photonic systems, where machine learning algorithms are used to design more efficient and adaptive optical structures. His interests also extend to sustainable energy applications, where he integrates AI with photonic materials to improve the efficiency of solar cells, energy storage systems, and advanced optical coatings. Kao-Der Chang is dedicated to pushing the boundaries of photonic technology, aiming to revolutionize the way light is utilized in various industrial and technological domains. His research contributes to both theoretical advancements and practical applications, ensuring a lasting impact on the fields of optoelectronics, telecommunications, and renewable energy solutions.
Research Skills
Kao-Der Chang possesses a diverse set of research skills that enable him to make significant contributions to optical engineering and photonic technology. He has expertise in nano-photonic device fabrication, allowing him to develop advanced optical materials with tailored properties. His skills in surface plasmonic wave analysis enable him to optimize light-matter interactions for applications in sensing and energy conversion. Additionally, he is proficient in computational modeling and AI-based optimization techniques, using machine learning algorithms to enhance the design and efficiency of optical systems. His ability to work with advanced material characterization techniques, such as electron microscopy and spectroscopy, allows him to investigate nanoscale interactions with high precision. Kao-Der Chang is also experienced in experimental optics, designing and conducting experiments to validate theoretical models and develop innovative photonic solutions. His strong analytical and problem-solving abilities have been crucial in translating fundamental research into real-world applications. Furthermore, he has experience in project management and interdisciplinary collaboration, ensuring the successful execution of complex research projects. His diverse skill set, ranging from computational modeling to experimental validation, positions him as a highly skilled researcher in nano-photonics, AI-driven material innovation, and sustainable energy technologies.
Awards and Honors
Throughout his career, Kao-Der Chang has received numerous awards and honors in recognition of his contributions to optical engineering and photonic research. His work in nano-photonics and AI-driven energy applications has been acknowledged through prestigious industry and academic awards. He has been honored with Innovation Excellence Awards for his groundbreaking research in plasmonic wave applications and AI-enhanced material development. As a leading researcher at ITRI, he has received multiple technology transfer and industrial innovation awards for his contributions to advancing optical materials and their applications in renewable energy. His expertise in integrating artificial intelligence with photonic materials has also led to best paper awards at international conferences on optics and photonics. Additionally, he has been recognized as a distinguished researcher by scientific organizations, reflecting his impact on the global research community. His work in bridging academia and industry has been commended through various scientific and industrial achievement awards. Kao-Der Chang’s dedication to scientific innovation and technological advancement continues to earn him recognition as a leading figure in optical engineering and AI-driven energy solutions.
Conclusion
Kao-Der Chang is a highly accomplished researcher with expertise in optical engineering, nano-photonics, and AI-driven material innovation. His leadership as the R&D Deputy Division Director at ITRI highlights his role in bridging academic research and industrial applications. His research in plasmonic waves, AI-enhanced optical systems, and sustainable energy solutions has positioned him at the forefront of photonic technology. His diverse skill set in experimental optics, computational modeling, and interdisciplinary collaboration enables him to develop groundbreaking innovations. Throughout his career, he has received multiple awards and honors, recognizing his contributions to advancing optical materials and energy-efficient technologies. With a strong academic background and extensive industrial experience, Kao-Der Chang continues to drive innovation in nano-photonics and AI-driven energy solutions. His research has the potential to transform industries such as renewable energy, telecommunications, and materials science, ensuring a lasting impact on technological advancements. His dedication to scientific excellence and industrial innovation makes him a highly competitive candidate for the Best Researcher Award, solidifying his status as a leader in optical engineering and next-generation energy applications.
Publication Top Notes
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Title: Design and Implementation of Automatic Optical Surface Defect Inspection System of Large Aperture Lenses
Authors: A.M. Tapilouw, Abraham Mario; Y. Chang, Yiwei; H. Wang, Hauwei; L. Chen, Liangtang; C.R. Chen, Chia Ray
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Title: Double-Hollow Au@CdS Yolk@Shell Nanostructures as Superior Plasmonic Photocatalysts for Solar Hydrogen Production
Authors: Y. Chen, Yian; Y. Nakayasu, Yuhi; Y.C. Lin, Yu Chang; A. Yamakata, Akira; Y. Hsu, Yungjung
Year: 2024
Citations: 6
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Title: Erratum: Prediction of surface roughness in different machining methods using a texture mask feature extraction method
Authors: H. Pan, Hsuchia; J. Pan, Juiwen; K.D. Chang, Kao Der