2021年

[1]*H. Inui, K. Kishida
"Plaston—elemental deformation process involving cooperative atom motion"in “The Plaston Concept”
Springer, (2022), pp.119-131.

[2]N. Tsuji, S. Ogata, H. Inui, I. Tanaka, K. Kishida
"Proposing the concept of Plaston and strategy to manage both high strength and large ductility in advanced structural materials, on the basis of unique mechanical properties of bulk nanostructured metals"
in "The Plaston Concept"
Springer, (2022), pp.3-34. 

[3]横井敦史, Tan Wai Kian, 武藤浩行
"導電性材料の設計，導電性制御および最新応用展開"
情報技術協会, (2021), 総ページ数984.

[4]T. Yonezawa, S. Zhu, and M. T. Nguyen
Chapter 15 "Miscellancous Reductants" in "Reducing Agents in Colloidal Nanoparticle Synthesis"
Nanoscience and Nanotechnology Series 50. The Royal Society of Chemistry (2021),pp.393-459.

[5]清水亮太
"“水素”を使いこなすためのサイエンス　ハイドロジェノミクス" 2.2節分担執筆
共立出版, (2022)

[6]T. Yatsuhashi, Takuya Okamoto
"Chapter 17 Bottom-up Synthetic Approaches to Carbon Nanomaterial Production in Liquid Phase by Femtosecond Laser Pulses" in "High-Energy Chemistry and Processing in Liquids"
Springer, (2022), page 331-356, 総ページ数356. 

[7]I. Tanaka, N. Tsuji, H. Inui
"The Plaston Concept: Plastic Deformation in Structural Materials"
Springer, 2022. (Part II. 5を執筆)

[8]N. Tsuji
"Advanced Thermomechanical Processing of Steels" in "Encyclopedia of Materials: Metals and Alloys, vol. 2"
Elsevier, (2022), pp.223-234.

[9]N. Tsuji, S. Ogata, H. Inui, I. Tanaka, K. Kishida
"Proposing the Concept of Plaston and Strategy to Manage Both High Strength and Large Ductility in Advanced Structural Materials, on the Basis of Unique Mechanical Properties of Bulk Nanostructured Metals" in "The Plaston Concept"
Springer, (2022), pp.3-34.