[1] |
Dmitry A. Vorontsov, Gen Sazaki, Suong-Hyu Hyon, Kazuaki Matsumura, and Yoshinori Furukawa,
Antifreeze Effect of Carboxylated ε‑Poly‑L‑lysine on the Growth Kinetics of Ice Crystals,
J. Phy. Chem., B118, 10240–10249 (20140811)
10.1021/jp507697q |
[2] |
Yoshinori Furukawa, Ken Nagashima, Shun-ichi Nakatsubo, Izumi Yoshizaki, Haruka Tamaru, Taro Shimaoka, Takehiko Sone, Etsuro Yokoyama, Salvador Zepeda, Takanori Terasawa, Harutoshi Asakawa, Ken-ichiro Murata, Gen Sazaki,
Oscillations and accelerations of ice crystal growth rates in microgravity in presence of antifreeze glycoprotein impurity in supercooled water,
Scientific Reports, 7:43157, (201702)
10.1038/srep43157 |
[3] |
Harutoshi Asakawa, Gen Sazaki, Etsuro Yokoyama, Ken Nagashima, Shunichi Nakatsubo, and Yoshinori Furukawa,
Roles of Surface/Volume Diffusion in the Growth Kinetics of Elementary Spiral Steps on Ice Basal Faces Grown from Water Vapor,
Crys. Growth Des., 14, 3210–3220, (20140530)
10.1021/cg4014653 |
[4] |
Guoliang Dai, Lei Zheng, Gen Sazaki, and Yoshinori Furukawa,
Attachment and Detachment Processes of Individual Lysozyme Molecules on a Surface of a Monoclinic Lysozyme Crystal Studied by Fluorescent Single-Molecule Visualization,
Cryst. Growth Des., 14, 5303–5309, (20140829)
10.1021/cg501122f |
[5] |
Gen Sazaki, Harutoshi Asakawa, Ken Nagashima, Shunichi Nakatsubo, and Yoshinori Furukawa,
Double Spiral Steps on Ih Ice Crystal Surfaces Grown from Water Vapor Just below the Melting Point,
Cryst. Growth Des., 14, 2133–2137, (20140407)
10.1021/cg4014448 |
[6] |
H. Asakawa, G. Sazaki, K. Nagashima, S. Nakatsubo, Y. Furukawa,
Prism and other high-index faces of ice crystals exhibit two types of quasi-liquid layers,
Crystal Growth & Design, 15 (7), 3339–3344, (2015)
10.1021/acs.cgd.5b00438 |
[7] |
K. Murata, H. Asakawa, K. Nagashima, Y. Furukawa, G. Sazaki,
In situ determination of surface tension-to-shear viscosity ratio for quasiliquid layers on ice crystal surfaces,
Phys. Rev. Lett., 115, 256103, (2015)
10.1103/PhysRevLett.115.256103 |
[8] |
H. Asakawa, G. Sazaki, K. Nagashima, S. Nakatsubo, Y. Furukawa,
Two types of quasi-liquid layers on ice crystals are formed kinetically,
Proc. Nat. Acad. Sci. USA., 113 (7), 1749–1753, (2016.2.1)
10.1073/pnas.1521607113 |
[9] |
K. Nagashima, G. Sazaki, T. Hama, H. Asakawa, K. Murata, Y. Furukawa,
Direct visualization of quasi-liquid layers on ice crystal surfaces induced by hydrogen chloride gas,
Crystal Growth & Design, 16 (4), 2225–2230, (2016)
10.1021/acs.cgd.6b00044 |
[10] |
Ken-ichiro Murataa, Harutoshi Asakawa, Ken Nagashima, Yoshinori Furukawa and Gen Sazaki,
Thermodynamic origin of surface melting on ice crystals,
Proc. Nat. Acad. Sci. USA., vol. 113 no. 44, E6741–E6748, (2016.10.17)
10.1073/pnas.1608888113 |
[11] |
Y. Furukawa, G. Sazaki and H. Nada,
Surface of Ice, Chapter VII of Volume 3: Surfaces of Multi-component Solids (Alloys, Compound, Semiconductors),
Surface and Interface Science, Ed. K. Wandelt, (Wiley-VCH, 2013)305–348.
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[12] |
Furukawa Y (2014) Ed. Nishinaga T,
Snow and ice crystal growthChapter 25:Handbook of Crystal Growth, Vol. I.,
Elsevier, pp1061–1112, ISBN: 9780444563699 (20141200)
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