水の液液および固液相転移の機構・ダイナミックスとポテンシャル面

Research Project

Project/Area Number	10206208
Research Category	Grant-in-Aid for Scientific Research on Priority Areas (B)
Allocation Type	Single-year Grants
Research Institution	Okayama University
Principal Investigator	田中秀樹岡山大学, 理学部, 教授 (80197459)
Project Period (FY)	1998 – 2000
Project Status	Completed (Fiscal Year 2001)
Budget Amount *help	¥18,300,000 (Direct Cost: ¥18,300,000) Fiscal Year 2000: ¥2,100,000 (Direct Cost: ¥2,100,000) Fiscal Year 1999: ¥7,700,000 (Direct Cost: ¥7,700,000) Fiscal Year 1998: ¥8,500,000 (Direct Cost: ¥8,500,000)
Keywords	凝縮相 / 水 / 分子動力学 / 過冷却状態 / 相転移 / ナノチューブ / 氷 / 水素結合 / ポテンシャル面 / 過冷却
Research Abstract	水2層分の距離だけ隔てられた疎水性壁の中における、水の相挙動を計算機シミュレーションにより調べた。壁に平行な面密度を固定すると、2層からなる準二次元結晶が生成することを、我々は既に発見している。今回は、壁間の距離を固定し、壁に平行な方向の応力を固定した。その結果、このような状態の水は、一次の相転移を経て、別の無定形相に転移することが示された。また、この無定形相は、拡散係数はほぼ0であることから、ガラス状態と考えられ、一次相転移とガラス転移が同時に起きている極めて稀な例であることを発見した。また、カーボンナノチューブ中での水の相挙動を調べた。ここで予想される固相は、ナノチューブの大きさに応じて4-8員環が積み重なったシリンダー状の結晶である。ランダムな分子配置から開始した分子動力学シミュレーションの結果、ある直径以下では液体から固体への転移は連続的であること、中間的な直径では1次の相転移を経ること、大きな直径では容易には結晶化しないことが示された。また、圧力の変化に対して、結晶でも例えば5員環から6員環に転移を起こすこと、さらにこれらの結晶の相境界は通常とは全く異なり、臨界点で消失することが示唆された。以上の結果は、軸方向と動径方向の秩序パラメータの相転移の場合の急激な変化により確認されるとともに、独立に行われた自由エネルギー計算によっても補強された。

Report

(4 results)

Research Products
(20 results)

All Other

All Publications (20 results)

[Publications] K.Koga, G.T.Gao, H.Tanaka, X.C.Zeng: "Formation of ordered ice nanotubes inside carbon nanotubes"Nature(London). 412. 802-805 (2001)
- Related Report
  2001 Final Research Report Summary
[Publications] Y.Koyama, H.Tanaka: "Thermal Expansivity of Two-dimensional Ice"Chem.Phys.Lett. 341. 619-624 (2001)
- Related Report
  2001 Final Research Report Summary
[Publications] Hideki Tanaka: "Hydrogen Bonds between Water Molecules:Thermal Expansivity of Ice and Water"J.Mol.Liq.. 90. 323-332 (2001)
- Related Report
  2001 Final Research Report Summary
[Publications] J.Slovak, H.Tanaka, K.Koga, X.C.Zeng: "Computer simulation of water-ice transition in hydrophobic nanopores"Physica A. 292. 87-101 (2001)
- Related Report
  2001 Final Research Report Summary
[Publications] K.Koga: "First-order transition in confined water between high density liquid and low density amorphous phases."Nature(London). 408. 564-567 (2000)
- Related Report
  2000 Annual Research Report
[Publications] H.Tanaka: "Potential Energy Surfaces of Supercooled Water : Intrabasin and Interbasin Structures Explored by Quenching, Normal Mode Excitation, and Basin Hopping."J.Chem.Phys.. 113. 11202-11211 (2000)
- Related Report
  2000 Annual Research Report
[Publications] K.Koga: "Ice nanotube : What does the unit cell look like? Unit cell structure of ice nanotubes."J.Chem.Phys.. 113. 5037-5040 (2000)
- Related Report
  2000 Annual Research Report
[Publications] G.T.Gao: "The melting temperature of proton-disordered hexagonal ice : A computer simulation of TIP4P model of water."J.Chem.Phys.. 112. 8534-8538 (2000)
- Related Report
  2000 Annual Research Report
[Publications] H.Tanaka: "A Molecular Dynamics Study of the Connectivity of Water Molecules in Supercooled States."Phys.Chem.Chem.Phys.. 2. 1595-1598 (2000)
- Related Report
  2000 Annual Research Report
[Publications] Y.Tamai: "Effects of chain on structure and dynamics"Phys. Rev. E. 59. 5647-5654 (1999)
- Related Report
  1999 Annual Research Report
[Publications] Y.Tamai: "Structure and dynamics of hydrogel"Molecular Simulation. 21. 283-301 (1999)
- Related Report
  1999 Annual Research Report
[Publications] H.Tanaka: "Thermal expansivity of cubic ice I and ice VII"J. Mol. Structure. 461/462. 561-567 (1999)
- Related Report
  1999 Annual Research Report
[Publications] J.Slovak: "Confined water in hydrophobic Nanopores"Phys. Rev. E. 60. 5833-5840 (1999)
- Related Report
  1999 Annual Research Report
[Publications] H.Tanaka: "Can thin disk-like clusters be more stable?"Chem. Phys. Lett.. 304. 378-384 (1999)
- Related Report
  1999 Annual Research Report
[Publications] H.Tanaka: "Molecular Dynamics"Elsevier Science. 42/933 (1999)
- Related Report
  1999 Annual Research Report
[Publications] H.Tanaka: "Fluctuation of local order" Phys.Rev.Lett.80・1. 113-116 (1998)
- Related Report
  1998 Annual Research Report
[Publications] H.Tanaka: "Cavity distribution in liquid water" Chem.Phys.Lett.282. 133-138 (1998)
- Related Report
  1998 Annual Research Report
[Publications] H.Tanaka (T.Kabeya): "Structure and potential surface of liquid methanol" J.Phys.Chem.B. 102・5. 899-905 (1998)
- Related Report
  1998 Annual Research Report
[Publications] H.Tanaka (K.Fujii): "Stabilization energies and rotational motions in clathrate hydrates" J.Phys.Chem.A. 102・16. 2635-2640 (1998)
- Related Report
  1998 Annual Research Report
[Publications] H.Tanaka: "Themodynamic stability and negative expansion of ices" J.Chem.Phys.108・12. 4887-4893 (1998)
- Related Report
  1998 Annual Research Report

水の液液および固液相転移の機構・ダイナミックスとポテンシャル面

Principal Investigator

田中 秀樹 岡山大学, 理学部, 教授 (80197459)

¥18,300,000 (Direct Cost: ¥18,300,000)

Report

Research Products

[Publications] K.Koga, G.T.Gao, H.Tanaka, X.C.Zeng: "Formation of ordered ice nanotubes inside carbon nanotubes"Nature(London). 412. 802-805 (2001)

Related Report

[Publications] Y.Koyama, H.Tanaka: "Thermal Expansivity of Two-dimensional Ice"Chem.Phys.Lett. 341. 619-624 (2001)

Related Report

[Publications] Hideki Tanaka: "Hydrogen Bonds between Water Molecules:Thermal Expansivity of Ice and Water"J.Mol.Liq.. 90. 323-332 (2001)

Related Report

[Publications] J.Slovak, H.Tanaka, K.Koga, X.C.Zeng: "Computer simulation of water-ice transition in hydrophobic nanopores"Physica A. 292. 87-101 (2001)

Related Report

[Publications] K.Koga: "First-order transition in confined water between high density liquid and low density amorphous phases."Nature(London). 408. 564-567 (2000)

Related Report

[Publications] H.Tanaka: "Potential Energy Surfaces of Supercooled Water : Intrabasin and Interbasin Structures Explored by Quenching, Normal Mode Excitation, and Basin Hopping."J.Chem.Phys.. 113. 11202-11211 (2000)

Related Report

[Publications] K.Koga: "Ice nanotube : What does the unit cell look like? Unit cell structure of ice nanotubes."J.Chem.Phys.. 113. 5037-5040 (2000)

Related Report

[Publications] G.T.Gao: "The melting temperature of proton-disordered hexagonal ice : A computer simulation of TIP4P model of water."J.Chem.Phys.. 112. 8534-8538 (2000)

Related Report

[Publications] H.Tanaka: "A Molecular Dynamics Study of the Connectivity of Water Molecules in Supercooled States."Phys.Chem.Chem.Phys.. 2. 1595-1598 (2000)

Related Report

[Publications] Y.Tamai: "Effects of chain on structure and dynamics"Phys. Rev. E. 59. 5647-5654 (1999)

Related Report

[Publications] Y.Tamai: "Structure and dynamics of hydrogel"Molecular Simulation. 21. 283-301 (1999)

Related Report

[Publications] H.Tanaka: "Thermal expansivity of cubic ice I and ice VII"J. Mol. Structure. 461/462. 561-567 (1999)

Related Report

[Publications] J.Slovak: "Confined water in hydrophobic Nanopores"Phys. Rev. E. 60. 5833-5840 (1999)

Related Report

[Publications] H.Tanaka: "Can thin disk-like clusters be more stable?"Chem. Phys. Lett.. 304. 378-384 (1999)

Related Report

[Publications] H.Tanaka: "Molecular Dynamics"Elsevier Science. 42/933 (1999)

Related Report

[Publications] H.Tanaka: "Fluctuation of local order" Phys.Rev.Lett.80・1. 113-116 (1998)

Related Report

[Publications] H.Tanaka: "Cavity distribution in liquid water" Chem.Phys.Lett.282. 133-138 (1998)

Related Report

[Publications] H.Tanaka (T.Kabeya): "Structure and potential surface of liquid methanol" J.Phys.Chem.B. 102・5. 899-905 (1998)

Related Report

[Publications] H.Tanaka (K.Fujii): "Stabilization energies and rotational motions in clathrate hydrates" J.Phys.Chem.A. 102・16. 2635-2640 (1998)

Related Report

[Publications] H.Tanaka: "Themodynamic stability and negative expansion of ices" J.Chem.Phys.108・12. 4887-4893 (1998)

Related Report

田中秀樹岡山大学, 理学部, 教授 (80197459)