Prof. Jun Taniguchi | Nanotechnology Innovations | Best Researcher Award

Prof. Jun Taniguchi, a renowned scholar in the Department of Applied Electronics at Tokyo University of Science, Tokyo, Japan, has established himself as a leading expert in the field of micro- and nano-scale fabrication technologies. He obtained his BE, ME, and PhD degrees from the same university in 1994, 1996, and 1999, respectively, and has been actively contributing to academia and research since then. His expertise lies in nanoimprint technology, electron beam lithography, nano-scale fabrication, and biomimetic moth-eye structures, which hold wide-ranging applications in areas such as optics, semiconductors, and advanced material sciences. Over the years, Prof. Taniguchi has authored 273 scholarly documents, which have collectively garnered 2,345 citations from 1,501 documents, reflecting the global relevance and influence of his research. His h-index of 25 further demonstrates the consistency and long-term impact of his contributions. Beyond his own groundbreaking work, Prof. Taniguchi plays a vital role in cultivating the next generation of researchers, with his doctoral students, including Mr. Takuto Wakasa, advancing innovative studies in micro-nano hybrid fabrication and evaluation. Through his leadership, vision, and mentorship, Prof. Taniguchi continues to drive progress in applied electronics and nanotechnology, reinforcing his reputation as a pioneer in the field.

Profile: Scopus

Featured Publications

1. Silver pattern transfer technique using concave region of mold and silver ink. (2023). Japanese Journal of Applied Physics.

2. Large-scale moth-eye-structured roll mold fabrication using sputtered glassy carbon layer and transferred moth-eye film characterization. (2023). Nanomaterials.

3. Three-dimensional reconstruction of frost structure by replica method. (2022). International Journal of Heat and Mass Transfer.

4. Fabrication of moth-eye-structured films with two types of resin separated by micro-order regions. (2023). Journal of Photopolymer Science and Technology.

5. Filling behavior observation of UV-curable resin using bridge-structure mold. (2023). Journal of Photopolymer Science and Technology.

6. Optimization of boiling heat transfer by visualization and boiling sound in a boiling bubble resonator. (2025). Heat and Mass Transfer.