---2023---

◆Achievement
Collaboration work with Prof. K. Shinozaki's group (Yokohama City University)(Oct. 3, 2023)
Title:Assembling of a Water-Soluble N^C^N-Coordinated Pt(II) Complex Aggregate Assisted by Carbon Dioxide in Basic Aqueous Solution
[10.1002/cssc.202301174]


◇Achievement
Collaboration work with Prof. Genji Kurisu's group (Institute for Protein Research, Osaka University), Prof. F. Ito's Groups (Shinshu University), Prof. U. Ramamurty's group (Nanyang Technological University), Prof. R. Thakuria's group (Gauhati University), and Prof. T. Nishizawa's Group (Yokohama City University) (Aug. 18, 2023)
Title:Mechanically-Sensitive Fluorochromism by Molecular Domino Transformation in a Schiff Base Crystal
[10.26434/chemrxiv-2023-kbltp]

◆Achievement
Collaboration work with Prof. R. Thakuria's group (Gauhati University), Prof. Genji Kurisu's group (Institute for Protein Research, Osaka University), and Prof. H. Hojo (Institute for Protein Research, Osaka University) (Apr. 17, 2023)
Title:Structure elucidation of olanzapine molecular salts by combining mechanochemistry and MicroED
[10.26434/chemrxiv-2023-l0fz9]
(2023.07.03追記)
Accepted by Crystal Growth & Design
[10.1021/acs.cgd.3c00432]


◇Achievement
Collaboration work with Prof. M. Kato and Prof. M. Yoshida (Kwansei Gakuin Univ.) , Dalton Trans., accepted. (Feb. 22, 2023)
Title:Elastic and bright assembly-induced luminescent crystals of platinum(ii) complexes with near-unity emission quantum yield
[10.1039/D3DT00192J]


◆Achievement
Collaboration work with Prof. Genji Kurisu's group (Institute for Protein Research, Osaka University) (Dec. 23, 2022)
Title:Microcrystal Electron Diffraction (MicroED) Structure Determination of a Mechanochemically Synthesized Co-crystal not Affordable from Solution Crystallization
[10.1039/D2CE01522F]


---2022---

◇Achievement
Collaboration work with Prof. Hajime Ito (Hokkaido Univ.) and Prof. Tomohiro Seki (Shizuoka Univ.), Chem. Sci., accepted. (July 25, 2022)
Title:Mechanical Deformation and Multiple Thermal Restoration of Organic Crystals: Reversible Multi-Stage Shape-Changing Effect with Luminescence-Color Changes
[10.1039/D2SC03414J]


◆Achievement
Collaboration work with Prof. Sunil Varughese (Academy of Scientific and Innovative Research), Chem. Sci., accepted. (July 4, 2022)
Title:Flexible organic crystals. Understanding the tractable co-existence of elastic and plastic bending
[10.1039/D2SC02969C]


◇Achievement
Bulletin of the Chemical Society of Japan accepted (2022/04/09)
Title:Long-Duration Crystal-Jumping by a Stepwise Stimulation: Thermal Induction of Strain and its Release by Spontaneous Desolvation (Article)
[DOI: doi:10.1246/bcsj.20220095]


◆Achievement
Cryst. Growth Des. 2022, accepted. (Pub. Date: April 14, 2022)
Title:Alkyl Chain Length-Dependent Dimensionality in Linking of Hydrogen-Bonding Supramolecular Columns
[10.1021/acs.cgd.2c00135]


◇Achievement
Selected as a Cover Art and CrystEngComm HOT article!!
Title:Mechanical twinning in organic crystals (highlight/review)
[10.1039/D2CE90046G]


◆Achievement
CrystEngComm just accepted (2022/03/01)
Title:Mechanical twinning in organic crystals (highlight/review)
[DOI: 10.1039/D2CE00089J]

◆Achievement
Crystal Growth and Design
Title:Four Directional Twinning Deformation of an Anisotropic Molecular Single Crystal Based on Three Different Modes of Mechanical Twinning (Publication Date:November 30, 2021)
[10.1021/acs.cgd.1c00763]


---2021---

◇Achievement
CrystEngComm Accepted
Title:Elastic Deformability and Luminescence of Crystals of Polyhalogenated Platinum(II)-bipyridine Complexes (2021/05)
[10.1039/D1CE00459J]


◆Achievement
Crystal Growth and Design
Title:Perpendicularly Oriented Dual Organosuperelasticity Correlated with Molecular Symmetry (2021/05/31)
[10.1021/acs.cgd.1c00210]


◇Achievement
Crystal Growth and Design Accepted
Title:An Organosuperelastic Mechanism with Bending Molecular Chain Bundles (2021/04)
[10.1021/acs.cgd.1c00089]


◆Achievement
CrystEngComm Accepted
Title:A Photoluminescent Organosuperelastic Crystal of 7-Amino-4-Methylcoumarin (2021/04)
[10.1039/D1CE00359C]


◇Achievement
Crystal Growth and Design Accepted
Title:Versatile Organosuperelastic Deformability by Multiple Mechanical Twinning (2021/03)
[10.1021/acs.cgd.1c00054]


◆Research更新
超弾性のまとめを追加、歴史や合金だけでなくその他の超弾性体について参考文献も少々 (2021/01/26)

---2020---

◆Achievement
Crystal Growth and Design Accepted
Title:Twinning-Based Organosuperelasticity and Chirality in a Single Crystal of an Achiral Donor-Acceptor Type Schiff Base Induced by Charge-Transfer Interactions (2020/11/10)
[10.1021/acs.cgd.0c01350]

◇Achievement
公益財団法人 戸部眞紀財団 助成金
助成期間：2020年10月1日～2021年9月30日

◆Achievement
Crystal Growth and Design Accepted
Title:Organoferroelasticity Mediated by Water of Crystallization (2020/08/19)
[10.1021/acs.cgd.0c01041]

◇Achievement
Crystal Growth and Design Accepted
Title:Temperature-Diversified Anisotropic Superelasticity and Ferroelasticity in a 3-Methyl-4-Nitrobenzoic Acid Crystal (2020/08/10)
[10.1021/acs.cgd.0c00964]

◆Research
有機超弾性についての説明の公開NGが出たため消しました。

◇Achievement
Crystal Growth and Design Accepted
Title:Strictly Regulated Two-Dimensional Slippage in a Lamellar Single Crystal of 5-Fluorouracil (2020/05/21)
[10.1021/acs.cgd.0c00535]

◆Achievement
Crystal Growth and Design Accepted
Title:Flash Shape-memorization Processing and Inversion of Polar Direction in a Chiral Organosuperelastic Crystal of 1,3,5-Tricyanobenzene (2020/05/18)
[10.1021/acs.cgd.0c00431]

◇Achievement
Crystal Growth and Design Accepted
Title:Ferroelasticity with a Biased Hysteresis Loop in a Co-Crystal of Pimelic Acid and 1,2-Di(4-pyridyl)ethane (2020/05/08)
[10.1021/acs.cgd.0c00221]

◆Achievement
公益財団法人池谷科学技術振興財団 助成金
助成期間：2020/04/01-2021/03/31

◇Achievement
Nature Communications Accepted/Published
Title:A superelastochromic crystal (2020/03/24)/(2020/04/14)
[10.1038/s41467-020-15663-5]

◆Achievement
Angewandte Chemie International Edition Accepted
Title:Photoluminescent Ferroelastic Molecular Crystals (2020/02)
[10.1002/anie.201914610]

◇Achievement
Crystal Growth & Design Accepted
Title:Organoferroelastic Crystal Prepared by Supramolecular Synthesis (2020/02)
[10.1021/acs.cgd.9b01606]

◆Achievement
Angewandte Chemie International Edition Accepted
Title:Multi‐Directional Organosuperelastic Crystal Made by Versatile Ferroelastical Reshaping (2020/01)
[10.1002/anie.201914954]

---2020---
---2019---
◇Achievement
Crystal Growth & Design
Title:Twinning Organosuperelasticity of a Fluorinated Cyclophane Single Crystal(2019/08)
[10.1021/acs.cgd.9b00917]

◆Achievement
Angewandte Chemie International Edition link(2019/06/05)
Title:Shape Rememorization of an Organosuperelastic Crystal via Superelasticity‐Ferroelasticity Interconversion

◇Achievement更新
Symmetry link (OPEN)(2019/04)

◆Achievement更新
Crystal Growth & Design text(2019/01)
Title:Experimental and Theoretical Analysis of Twofold Helix-Based Chiral Crystallization by Confined Inter-Helical CH/π Contacts
---2019---

---2018---
◇Achievement更新 Highlighted in Nature Communications 30 July 2018
◇Achievement更新(2018年Nature Communications"Superplasiticity in an organic crystal")(2018/09)
◆Gallery: 花火，ヨーロッパ旅行 追加(2018/08/19)
◇Achievement更新(2018年論文1報追加)(2018/8/15)
◆Achievement更新(2018年論文1報追加)(2018/7/4)
◇Achievement更新(2018年論文2報追加)(2018/6/4)
◆Profile更新(所属変更)(2018/6/1)
◇Achievement更新(2018/1/16)
---2018---

---2017---
◆Profile更新(2017/10/14)
◇Gallery: 姫路でお花見，屋久島　追加(2017/05/02)
◆Ahicevements, Gallery: スタイル変更(2017/03/03)
◇Prof:所属学会リスト追加(2017/02/15)
◆Gallery:写真を移転, 写真追加, Achievements:国内学会リスト更新(2017/02/14)
◇Others:写真追加, Achievements:一部更新(2017/02/09)
◆Achievements:一部更新(2017/02/07)
◇Others:写真追加(2017/02/03)
◆Others:趣味のポイント集め追加(2017/01/16)
◇Profile：写真追加, Reserach：超分子の例追加, Achievements：学会リスト一部更新, Gallery：お絵かき画像追加(2017/01/12)
---2017---

---2016---
◆Achievements, Researchの一部更新(2016/09/26)
◇プロフィール更新(2016/09/25)
◆HPを更新(2016/09/23)
---2016---