2026 Shinichi Shikata: Materials Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	40	12821	12403	814	775	247	6218

Overview

Shinichi Shikata is affiliated with Kwansei Gakuin University in Japan and has contributed extensively to the fields of engineering and materials science. Their research primarily focuses on diamond and carbon-based materials, with significant work in associated subfields such as materials chemistry, electrical and electronic engineering, mechanics of materials, biomedical engineering, and geophysics.

Their recent papers include studies published in prominent venues like Diamond and Related Materials and the Japanese Journal of Applied Physics. Notable publications by Shikata are:

Analysis method of diamond dislocation vectors using reflectance mode X-ray topography, 2021, Diamond and Related Materials
X-ray absorption near edge structure and extended X-ray absorption fine structure studies of P doped (111) diamond, 2020, Diamond and Related Materials

Other recent papers in related collaborations feature topics such as diamond Schottky barrier diode characteristics and surface acoustic wave resonators. These appeared in venues including Diamond and Related Materials and the Japanese Journal of Applied Physics.

Frequent co-authors of Shikata include Noboru Ohtani, Naoya Akashi, Kensuke Miyajima, Takatoshi Yamada, and Satoshi Koizumi, indicating ongoing collaborative research efforts in their fields of study.

The scientist has published regularly in specific journals, with a concentration of work appearing in Diamond and Related Materials. Additional publications are found in Japanese Journal of Applied Physics, Functional Diamond, Sensors and Materials, and Materials Science Forum.

Shikata's research covers multiple intertwined topics:

Diamond and carbon-based materials research
Metal and thin film mechanics
High-pressure geophysics and materials
Advanced surface polishing techniques
Integrated circuits and semiconductor failure analysis
Acoustic wave resonator technologies
Ferroelectric and piezoelectric materials

This range of topics indicates a multidisciplinary approach to the study of advanced materials with applications spanning electronics, surface science, and geophysical processes.

Best Publications

Investigation of surface magnetic noise by shallow spins in diamond.

T Rosskopf;A Dussaux;K Ohashi;M Loretz

244
Citations
Single crystal diamond wafers for high power electronics

Shinichi Shikata

229
Citations
Theoretical study on SAW characteristics of layered structures including a diamond layer

Unknown

214
Citations
High temperature application of diamond power device

Hitoshi Umezawa;Masanori Nagase;Yukako Kato;Shin-ichi Shikata

203
Citations
Negatively Charged Nitrogen-Vacancy Centers in a 5 nm Thin 12C Diamond Film

K. Ohashi;T. Rosskopf;H. Watanabe;M. Loretz

197
Citations
High-sensitivity magnetometry based on quantum beats in diamond nitrogen-vacancy centers.

Kejie Fang;Victor M. Acosta;Charles Santori;Zhihong Huang

176
Citations
Optical and Spin Coherence Properties of Nitrogen-Vacancy Centers Placed in a 100 nm Thick Isotopically Purified Diamond Layer

Toyofumi Ishikawa;Kai Mei C. Fu;Charles Santori;Victor M. Acosta

174
Citations
A 2-in. mosaic wafer made of a single-crystal diamond

H. Yamada;A. Chayahara;Y. Mokuno;Y. Kato

163
Citations
Leakage current analysis of diamond Schottky barrier diode

Hitoshi Umezawa;Takeyasu Saito;Norio Tokuda;Masahiko Ogura

151
Citations
Heteroepitaxial growth of ZnO films on diamond (111) plane by magnetron sputtering

Akihiro Hachigo;Hideaki Nakahata;Kenjiro Higaki;Satoshi Fujii

151
Citations
Diamond Metal–Semiconductor Field-Effect Transistor With Breakdown Voltage Over 1.5 kV

Hitoshi Umezawa;Takeshi Matsumoto;Shin-Ichi Shikata

148
Citations
Large-area high-quality single crystal diamond

Matthias Schreck;Jes Asmussen;Shinichi Shikata;Jean Charles Arnault

131
Citations
1 Ω On-Resistance Diamond Vertical-Schottky Barrier Diode Operated at 250 °C

Hitoshi Umezawa;Yukako Kato;Shin-ichi Shikata

131
Citations
Fabrication of 1 Inch Mosaic Crystal Diamond Wafers

Hideaki Yamada;Akiyoshi Chayahara;Yoshiaki Mokuno;Hitoshi Umezawa

128
Citations
Diamond(001) single‐domain 2×1 surface grown by chemical vapor deposition

Takashi Tsuno;Tadashi Tomikawa;Shin‐ichi Shikata;Takahiro Imai

117
Citations
Pulse-doped diamond p-channel metal semiconductor field-effect transistor

H. Shiomi;Y. Nishibayashi;N. Toda;S.-I. Shikata

103
Citations
Isotopic homojunction band engineering from diamond.

H. Watanabe;C. E. Nebel;S. Shikata

102
Citations
Thermally Stable Schottky Barrier Diode by Ru/Diamond

Kazuhiro Ikeda;Hitoshi Umezawa;Kumaresan Ramanujam;Shin-ichi Shikata

94
Citations
Fabrication and fundamental characterizations of tiled clones of single-crystal diamond with 1-inch size

Hideaki Yamada;Akiyoshi Chayahara;Hitoshi Umezawa;Nobuteru Tsubouchi

89
Citations
Uniform growth and repeatable fabrication of inch-sized wafers of a single-crystal diamond☆

Hideaki Yamada;Akiyoshi Chayahara;Yoshiaki Mokuno;Nobuteru Tsubouchi

89
Citations
Characterization of leakage current on diamond Schottky barrier diodes using thermionic-field emission modeling

Hitoshi Umezawa;Norio Tokuda;Masahiko Ogura;Sung-Gi Ri

82
Citations
Increase in Reverse Operation Limit by Barrier Height Control of Diamond Schottky Barrier Diode

H. Umezawa;N. Tatsumi;S.-i. Shikata;K. Ikeda

80
Citations
Diamond Schottky barrier diode for high-temperature, high-power, and fast switching applications

Hitoshi Umezawa;Shin-ichi Shikata;Tsuyoshi Funaki

76
Citations