2026 Yoshihito Osada: Materials Science Researcher – H-Index, Publications & Awards

D-Index & Metrics

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	73	3761	3639	161	158	364	26334
Chemistry	72	5160	4691	298	279	328	25485

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

3761

3639

161

158

364

26334

Chemistry

5160

4691

298

279

328

25485

Materials Science

D-Index

Citations

26334

World Ranking

3761

National Ranking

161

Chemistry

D-Index

Citations

25485

World Ranking

5160

National Ranking

298

Overview

Yoshihito Osada is affiliated with RIKEN in Japan and conducts research primarily in the field of Environmental Science. Their work has a strong focus on Ecology, contributing particularly to topics such as Isotope Analysis in Ecology, Marine and Fisheries Research, and Microbial Community Ecology and Physiology.

The scientist has authored multiple papers published in a variety of academic venues. Recent publications include:

Estimating fish population abundance by integrating quantitative data on environmental DNA and hydrodynamic modelling, 2020, Molecular Ecology
Tracking long-distance migration of marine fishes using compound-specific stable isotope analysis of amino acids, 2020, Ecology Letters
Unified understanding of nonparametric causality detection in time series, 2023, bioRxiv (Cold Spring Harbor Laboratory)
Is harvest size a valid indirect measure of abundance for evaluating the population size of game animals using harvest-based estimation?, 2020, Wildlife Biology
Reconstruction of a Soil Microbial Network Induced by Stress Temperature, 2022, Microbiology Spectrum

Osada frequently publishes in the following venues:

bioRxiv (Cold Spring Harbor Laboratory)
Molecular Ecology
Ecology Letters
Wildlife Biology
Microbiology Spectrum

Co-authorship is a notable aspect of their research, with frequent collaborators including:

Michio Kondoh
Ichiro Tayasu
Ashiyu Ono
Vittorio Calabrese
Naomi Osakabe

The scientist's research topics cover a range of specialized areas, including:

Isotope Analysis in Ecology
Marine and fisheries research
Microbial Community Ecology and Physiology
Fish Ecology and Management Studies
Ecosystem dynamics and resilience
Wildlife Ecology and Conservation
Slime Mold and Myxomycetes Research

Subfields within their research domain comprise:

Ecology
Global and Planetary Change
Molecular Biology
Nature and Landscape Conservation
Plant Science

Best Publications

Double‐Network Hydrogels with Extremely High Mechanical Strength

Jian Ping Gong;Yoshinori Katsuyama;Takayuki Kurokawa;Yoshihito Osada

4787
Citations
A polymer gel with electrically driven motility

Yoshihito Osada;Hidenori Okuzaki;Hirofumi Hori

1786
Citations
Self-healing gels based on constitutional dynamic chemistry and their potential applications

Zhao Wei;Jian Hai Yang;Jinxiong Zhou;Feng Xu

896
Citations
High Mechanical Strength Double‐Network Hydrogel with Bacterial Cellulose

Atsushi Nakayama;Akira Kakugo;Jian Ping Gong;Yoshihito Osada

790
Citations
Soft and Wet Materials: Polymer Gels

Yoshihito Osada;Jian-Ping Gong

729
Citations
Novel biocompatible polysaccharide-based self-healing hydrogel

Zhao Wei;Jian Hai Yang;Zhen Qi Liu;Feng Xu

671
Citations
Novel hydrogels with excellent mechanical performance

Yoshimi Tanaka;Jain Ping Gong;Yoshihito Osada

521
Citations
Biomechanical properties of high-toughness double network hydrogels.

Kazunori Yasuda;Jian Ping Gong;Yoshinori Katsuyama;Atsushi Nakayama

390
Citations
True Chemical Structure of Double Network Hydrogels

Tasuku Nakajima;Hidemitsu Furukawa;Yoshimi Tanaka;Takayuki Kurokawa

351
Citations
Determination of fracture energy of high strength double network hydrogels.

Yoshimi Tanaka;Rikimaru Kuwabara;Yang-Ho Na;Takayuki Kurokawa

348
Citations
Synthesis of hydrogels with extremely low surface friction.

Jian Ping Gong;Takayuki Kurokawa;Tetsuharu Narita;Go Kagata

318
Citations
Necking Phenomenon of Double-Network Gels

Yang-Ho Na;Yoshimi Tanaka;Yasunori Kawauchi;Hidemitsu Furukawa

316
Citations
Stimuli-responsive polymer gels and their application to chemomechanical systems

Yoshihito Osada;Jianping Gong

302
Citations
Structural Characteristics of Double Network Gels with Extremely High Mechanical Strength

Yang-Ho Na;Takayuki Kurokawa;Yoshinori Katsuyama;Hiroyuki Tsukeshiba

275
Citations
Effect of polymer entanglement on the toughening of double network hydrogels.

Hiroyuki Tsukeshiba;Mei Huang;Yang Ho Na;Takayuki Kurokawa

270
Citations
Mechanically strong hydrogels with ultra-low frictional coefficients

Daisaku Kaneko;Tomohiro Tada;Takayuki Kurokawa;Jian P. Gong

251
Citations
Polymer sensors and actuators

Yoshihito. Osada;Danilo E. De Rossi

240
Citations
Formation of interpolymer complexes

Eishun Tsuchida;Yoshihito Osada;Hiroyuki Ohno

239
Citations
Gel friction: A model based on surface repulsion and adsorption

Jianping Gong;Yoshihito Osada

229
Citations
Titration Behavior and Spectral Transitions of Water-Soluble Polythiophene Carboxylic Acids

Kim;Li Chen;Gong;Yoshihito Osada

225
Citations
Effects of hydrophobic interaction on the cooperative binding of a surfactant to a polymer network

Hidenori Okuzaki;Yoshihito Osada

222
Citations
Polymer Gels and Networks

Yoshihito Osada;Alexei Khokhlov

17
Citations