English

研究業績 (Publication)

論文 (Papers)

  • Globular pattern formation of hierarchical ceria nanoarchitecture
    N. Aoyagi, R. Motokawa, M. Okumura, Y. Ueda, T. Saito, S. Nishitsuji, T. Taguchi, T. Yomogida, G. Sazaki and A. Ikeda-Ohno
    Commun. Chem., 7, 128-1-13 (2024).
  • Solution-mediated phase transition of protein crystals
    Y. Suzuki, A. Ikeuchi, K. Taoka, G. Sazaki
    Modern Phys. Lett. B, 2441015-1-5 (2024).


  • Construction of millimeter-wide monolayers of ordered nanocubes as a stain of “wineglass tears”
    Y. Takatsuji, R. Matsumoto, G. Sazaki, Y. Oaki, H. Imai
    Langmuir, 39 (11), 4091-4099 (2023).
  • Adsorption kinetics of type-III antifreeze protein on ice crystal surfaces
    D. A. Vorontsov, G. Sazaki, Y. Furukawa, E. K. Titaeva, E. L. Kim
    Langmuir, 39 (25), 8612-8622 (2023).


  • Growth kinetics of elementary spiral steps on ice prism faces grown in vapor and their temperature dependence
    G. Miyamoto, A. Kouchi, K. Murata, K. Nagashima, G. Sazaki
    Crystal Growth & Design, 22 (11), 6639-6646 (2022).
  • Step-bunching instability of growing interfaces between ice and supercooled water
    K. Murata, M. Sato, M. Uwaha, F. Saito, K. Nagashima, G. Sazaki
    Proceedings of the National Academy of Sciences 119(10), e2115955119 (2022)


  • Cuticular Lipid Topology on Insect Body Surfaces Studied by Synchrotron Radiation FTIR ATR Microspectroscopy
    F. Kaneko, K. Chihiro, K. Nagashima, G. Sazaki, Y. Ikemoto
    The Journal of Physical Chemistry B 125(34), 9757-9767 (2021)
  • HCl Droplets Induced Bunched Steps on Ice Crystal Surfaces under Atmospheric-Concentration HCl Gas
    K. Nagashima, K. Murata, G. Sazaki
    Crystal Growth & Design 21(4), 2508-2515 (2021)
  • Transmission Electron Microscopy Study of the Morphology of Ices Composed of H2O, CO2, and CO on Refractory Grains
    A. Kouchi, M. Tsuge, T. Hama, Y. Oba, S. Okuzumi, S. Sirono, M. Momose, N. Nakatani, K. Furuya, T. Shimonishi, T. Yamazaki, H. Hidaka, Y. Kimura, K. Murata, K. Fujita, S. Nakatsubo, S. Tachibana, N. Watanabe
    The Astrophysical Journal, 918(2): 45(1-20) (2021)
  • First In Situ X-ray Scattering Measurements of Insect Body Surface Lipids: American Cockroach
    F. Kaneko, K. Chihiro, K. Nagashima, G. Sazaki
    The Journal of Physical Chemistry Letters 12(7), 1969-1972 (2021)


  • Quasi-liquid layers in grooves of grain boundaries and on grain surfaces of polycrystalline ice thin films
    J. Chen, T. Maki, K. Nagashima, K. Murata, G. Sazaki
    Crystal growth & design 20(11), 7188-7196 (2020)
  • Correction to Quasi-Liquid Layers Can Exist on Polycrystalline Ice Thin Films at a Temperature Significantly Lower than on Ice Single Crystals
    J. Chen, T. Maki, K. Nagashima, K. Murata, G. Sazaki
    Crystal Growth & Design 20(7), 4852-4854 (2020)
  • Appearance and Disappearance of Quasi-Liquid Layers on Ice Crystals in the Presence of Nitric Acid Gas
    K. Nagashima, J. Maurais, K. Murata, Y. Furukawa, P. Ayotte, G. Sazaki
    Crystals 10(2), 72 (2020)


  • Investigating ice surfaces formed near the freezing point in the vapor phase via atomic force microscopy
    Y. Miyato, K. Otani, M. Maeda, K. Nagashima, M. Abe
    Japanese Journal of Applied Physics 58(SI), SIIA09 (2019)
  • How Do Ice Crystals Grow inside Quasiliquid Layers?
    K. Murata, K. Nagashima, G. Sazaki
    Physical Review Letters 122(2), 26102 (2019)


  • ATR FTIR Spectroscopic Study on insect body surface lipids rich in methylene-interrupted diene
    F. Kaneko, K. Chihiro, G. Sazaki, K. Nagashima
    The Journal of Physical Chemistry B 122(51), 12322-12330 (2018)
  • Quasi-liquid layers can exist on polycrystalline ice thin films at a temperature significantly lower than on ice single crystals
    J. Chen, K. Nagashima, K. Murata, G. Sazaki
    Crystal Growth & Design 19(1), 116-124 (2018)
  • In situ observations of spiral growth on ice crystal surfaces
    K. Murata, K. Nagashima, G. Sazaki
    Physical Review Materials 2(9), 93402 (2018)
  • Growth suppression of ice crystal basal face in the presence of a moderate ice-binding protein does not confer hyperactivity
    M. Bayer-Giraldi, G. Sazaki, K. Nagashima, S. Kipfstuhl, D.A. Vorontsov, Y. Furukawa
    Proceedings of the National Academy of Sciences 115(29), 7479-7484 (2018)
  • Uptake mechanism of atmospheric hydrogen chloride gas in ice crystals via hydrochloric acid droplets
    K. Nagashima, G. Sazaki, T. Hama, K. Murata, Y. Furukawa
    Crystal Growth & Design 18(7), 4117-4122 (2018)
  • Growth of ice crystals in the presence of type III antifreeze protein
    D.A. Vorontsov, G. Sazaki, E.K. Titaeva, E.L. Kim, M. Bayer-Giraldi, Y. Furukawa
    Crystal Growth & Design, 18(4), 2563-2571 (2018)
  • Temperature dependence of the growth kinetics of elementary spiral steps on ice basal faces grown from water vapor
    M. Inomata, K. Murata, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, G. Sazaki
    Crystal Growth & Design 18(2), 786-793 (2018)


  • Liquid-like behavior of UV-irradiated interstellar ice analog at low temperatures
    S. Tachibana, A. Kouchi, T. Hama, Y. Oba, L. Piani, I. Sugawara, Y. Endo, H. Hidaka, Y. Kimura, K. Murata, H. Yurimoto, N. Watanabe
    Science Advances 3, eaao2538 (2017).
  • Hybrid plasmonic-photonic crystal formed on gel-immobilized colloidal crystal via solvent substitution
    S. Kawakami, A. Mori, K. Nagashima, M. Haraguchi, T. Okamoto
    Journal of Crystal Growth, 468, 740-743 (2017).
  • Oscillations and accelerations of ice crystal growth rates in microgravity in presence of antifreeze glycoprotein impurity in supercooled water
    Y. Furukawa, K. Nagashima, S. Nakatsubo, I. Yoshizaki, H. Tamaru, T. Shimaoka, T. Sone, E. Yokoyama, S. Zepeda, T. Terasawa, H. Asakawa, K. Murata, G. Sazaki
    Scientific Reports, 7, 43157 (2017).
  • Self-organized formation of parallel-banded structures through synchronization of twisted growth
    S. Mizue, S. Ibaraki, R. Ise, G. Sazaki, Y. Oaki, H. Imai
    Crystal Growth & Design, 17 (7), 3694-3699 (2017).
  • Impact of surface roughness on liquid-liquid transition
    K. Murata, H. Tanaka
    Science Advances, 3(2), e1602209 (2017).


  • Thermodynamic origin of surface melting on ice crystals
    K. Murata, H. Asakawa, K. Nagashima, Y. Furukawa, G. Sazaki
    Proc. Nat. Acad. Sci. USA, 113(44), E6741-E6748 (2016).
  • Direct visualization of quasi-liquid layers on ice crystal surfaces induced by hydrogen chloride gas
    K. Nagashima, G. Sazaki, T. Hama, H. Asakawa, K. Murata, Y. Furukawa
    Crystal Growth & Design, 16(4), 2225-2230 (2016).
  • Two types of quasi-liquid layers on ice crystals are formed kineticcally
    H. Asakawa, G. Sazaki, K. Nagashima, S. Nakatsubo, Y. Furukawa
    Proc. Nat. Acad. Sci. USA, 113(7), 1749-1753 (2016).


  • Nanostructure for Hybrid Plasmonic-Photonic Crystal Formed on Gel-Immobilized Colloidal Crystal Observed by AFM after Drying
    S Kawakami, A Mori, K Nagashima, S. Hashimoto, M. Haraguchi
    Bulletin of the Chemical Society of Japan, 89 (3), 385-393 (2015)
  • In situ determination of surface tension-to-shear viscosity ratio for quasiliquid layers on ice crystal surfaces
    K. Murata, H. Asakawa,K. Nagashima, Y. Furukawa, G. Sazaki
    Phys. Rev. Lett. 115, 256103 (2015).
  • Direct observation of bunching of elementary steps on protein crystals under forced flow conditions
    G. Sazaki, G. Dai
    Theoretical & Applied Mechanics Letters, 5 (4) 173-176 (2015).
  • Prism and other high-index faces of ice crystals exhibit two types of quasi-liquid layers
    H. Asakawa, G. Sazaki, K. Nagashima, S. Nakatsubo, Y. Furukawa
    Crystal Growth & Design, 15 (7), 3339-3344 (2015).
  • Oscillatory growth for twisting crystals
    S. Ibaraki, R. Ise, K. Ishimori, Y. Oaki, G. Sazaki, E. Yokoyama, K. Tsukamoto, H. Imai
    Chem. Comm., 51 (40), 8516-8519 (2015).
  • Microscopic identification of the order parameter governing liquid-liquid transition in a molecular liquid
    K. Murata and H. Tanaka
    Proc. Nat. Acad. Sci. USA, 112(19), 5956-5961 (2015).


  • High contrast visualization of cell-hydrogel contact by advanced interferometric optical microscopy: T. Matsuzaki, G. Sazaki, M. Suganuma, T. Watanabe, T. Yamazaki, M. Tanaka, S. Nakabayashi, H. Yoshikawa, , J. Phys. Chem. Lett., 5, 253-257 (2014).
  • Attachment and Detachment Processes of Individual Lysozyme Molecules on a Surface of a Monoclinic Lysozyme Crystal Studied by Fluorescent Single-Molecule Visualization: G. Dai, G. Sazaki, Y. Furukawa, Cryst. Growth Des., 14, 5303-5309, (2014).
  • Antifreeze Effect of Carboxylated ε‑Poly‑L‑lysine on the Growth Kinetics of Ice Crystals: D. A. Vorontsov, G. Sazaki, S.-H Hyon , K. Matsumura, Y. Furukawa, J. Phys. Chem., B118, 10240-10249, (2014).
  • Double Spiral Steps on Ih Ice Crystal Surfaces Grown from Water
    Vapor Just below the Melting Point: G. Sazaki, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, Cryst. Growth Des., 14, 2133-2137, (2014).
  • Roles of Surface/Volume Diffusion in the Growth Kinetics of Elementary Spiral Steps on Ice Basal Faces Grown from Water Vapor: H. Asakawa, G. Sazaki, E. Yokoyama, K. Nagashima, Y. Furukawa, Cryst. Growth Des., 14: 3210-3220 (2014).


  • Colloidal crystallization utilizing interfaces of unidirectionally growing crystals: Y. Suzuki, G. Sazaki, K. Hashimoto, T. Fujiwara, Y. Furukawa, J. Crystal Growth, 383, 67-71 (2013).
  • A novel approach for protein crystallization by a synthetic hydrogel with thermoreversible gelation polymer: S. Sugiyama, N. Shimizu, G. Sazaki, M. Hirose, Y. Takahashi, M. Maruyama, H. Matsumura, H. Adachi, K. Takano, S. Murakami, T. Inoue, Y. Mori, Crystal Growth & Design, 13, 1899-1904 (2013)
  • How do Quasi-Liquid Layers Emerge from Ice Crystal Surfaces?: G. Sazaki, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, Cryst. Growth. Des., 13(4): 1761-1766 (2013).


  • Spacially precise, soft microseeding of single protein crystals by femtosecond laser ablation: H. Y. Yoshikawa, Y. Hosokawa, R. Murai, G. Sazaki, T. Kitatani, H. Adachi, T. Inoue, H. Matsumura, K. Takano, S. Murakami, S. Nakabayashi, Y. Mori, H. Masuhara, Crystal Growth & Design, 12, 4334-4339 (2012).
  • Effects of a forced solution flow on the step advancement on {110} faces of tetragonal lysozyme crystals: direct visualization of individual steps under a forced solution flow: M. Maruyama, H. Kawahara, G. Sazaki, S. Maki, Y. Takahashi, H.Y. Yoshikawa, S. Sugiyama, H. Adachi, K. Takano, H. Matsumura, T. Inoue, S. Murakami, Y. Mori, Crystal Growth & Design, 12, 2856-2863 (2012).
  • Spiral-mediated growth can lead to crystals of higher purity: M. Sleutel, G. Sazaki, A.E.S. Van Driessche, Crystal Growth & Design, 12, 2367-2374 (2012).
  • Growth of protein crystals in hydrogels prevents osmotic shock: S. Sugiyama, M. Maruyama, G. Sazaki, M. Hirose, H. Adachi, K. Takano, S. Murakami, T. Inoue, Y. Mori, H. Matsumura, J. Am. Chem. Soc., 134, 5786-5789 (2012). (Selected as JACS Spotlights)
  • Antifreeze proteins: computer simulation studies on the mechanism of ice growth inhibition: H. Nada and Y. Furukawa, Polymer Journal, 44: 690-698 (2012).
  • Precise measurements of dendrite growth of ice crystals in microgravity: I. Yoshizaki, T. Ishikawa, S. Adachi, E. Yokoyama, Y. Furukawa, Microgravity Sci. and Tech., 10.1007/s12217-012-9306-9(2012).
  • Quasi-liquid layers on ice crystal surfaces are made up of two different phases: G. Sazaki, S. Zepeda, S. Nakatsubo, M. Yokomine, Y. Furukawa,  Proc. Nat. Acad.  Sci. USA, 109, 1052-1055 (2012). (Selected as In This I ssue PNAS)


  • A new constraint for chondrule formation: condition for the rim formation
    of barred-olivine textures: H. Miura, E. Yokoyama, K. Nagashima, K. Tsukamoto, A. Srivastava, Earth Planets and Space 63, 1087-1096 (2011).
  • Anomalous diffusion in supported lipid bilayers induced by oxide surface nanostructures: R. Tero, G. Sazaki, T. Ujihara, T. Urisu, Langmuir, 27, 9662-9665 (2011).
  • Magnetite 3D colloidal crystals formed in the early solar system 4.6 billion
    years ago: J. Nozawa, K. Tsukamoto, W. van Enckevort, T. Nakamura, Y.
    Kimura, H. Miura, H. Satoh, K. Nagashima, and M. Konoto, J. Am. Chem. Soc. 133 8782-8785 (2011).
  • Stable Growth Mechanisms of Ice Disk Crystals in Heavy Water: S. Adachi, I. Yoshizaki, T. Ishikawa, E. Yokoyama, Y. Furukawa, T. Shimaoka, Physical Review E, PHYSICAL REVIEW E 84, 051605 (2011)
  • Growth inhibition at the ice prismatic plane induced by a spruce budworm antifreeze protein: a molecular dynamics simulation study: H. Nada and Y. Furukawa, Phys. Chem. Chem. Phys., 13, 19936-19942 (2011).
  • Measurements of growth rates of an ice crystal from supercooled heavy water under microgravity conditions - Basal face growth rate and tip velocity of a dendrite: E. Yokoyama, I. Yoshizaki, T. Shimaoka, T. Sone, T. Kiyota, Y. Furukawa, Journal of Physical Chemistry, B115, 8739-8745 (2011). (Highlighted in Nature Chemistry, 3, P572, August 2011)
  • Gradual immobilization processes of molecules during transitions from solute to solid states:G. Dai, G. Sazaki, T. Matsui, K. Tsukamoto, K. Nakajima, Q. Kang, W. Hu, Crystal Growth & Design, 11, 88-92 (2011).
  • Growth mechanism of a hexagonal bipyramidal ice crystal in the presence of winter flounder antifreeze proteins: H. Nada and Y. Furukawa, in Physics and Chemistry of Ice 2010, Ed. Y. Furukawa, G, Sazaki, T. Uchida and N. Watanabe, Hokkdido University Press, 429-436 (2011).
  • S. Sugiyama, M. Hirose, N. Shimizu, M. Niiyama, M. Maruyama, G. Sazaki, R. Murai, H. Adachi, K. Takano, S. Murakami, T. Inoue, Y. Mori, H. Matsumura, “Effect of evaporation on protein crysals grown in semi-solid agarose hydrogel”, Jpn. J. Appl. Phys., 50, 025502-1-4 (2011).


  • Phase-field simulation for crystallization of a highly supercooled forsterite-chondrule melt droplet:H. Miura, E. Yokoyama, K. Nagashima, K. Tsukamoto, A. Srivastava,Journal of Applied Physics 108, 114912 (2010).
  • Molecular resolution investigation of tetragonal lysozyme(110) face in
    liquid by FM-AFM: K. Nagashima, M. Abe, S. Morita, N. Oyabu, K. Kobayashi, H. Yamada, M. Ohta, R. Kokawa, R. Murai, H. Matsumura, H. Adachi, K. Takano, S. Murakami, T. Inoue, Y. Mori, J. Vac. Sci. Technol. B 28, C4C11-C4C14 (2010).
  • Significant alterations in anisotropic ice growth rate induced by the ice nucleation-active bacteria Xanthomonas campestris: H. Nada, S. Zepeda, H. Miura, Y. Furukawa, Chem. Phys. Lett., 498,  101-106 (2010).
  • Elementary steps at the surface of ice crystals visualized by advanced optical microscopy:G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, , Proc. Nat. Acad. Sci. USA., 107, 19702-19707 (2010). (Selected as In This Issue PNAS)
  • Solubility measurements of protein crystals under high pressure by in situ observation of steps on crystal surfaces:T. Fujiwara, Y. Suzuki, G. Sazaki, K. Tamura, "", J. Phys. Conf. Series, 215, 012159-1-5 (2010).
  • In situ observation of step dynamics on gypsum crystals:A.E.S. Van Driessche, J.M. García-Ruíz, J.M. Delgado-López, G. Sazaki, Crystal Growth & Design, 10, 3909-3916 (2010).
  • Enhancement of femtosecond laser-induced nucleation of protein in a gel solution:R. Murai, H.Y. Yoshikawa, Y. Takahashi, M. Maruyama, S. Sugiyama, G. Sazaki, H. Adachi, K. Takano, H. Matsumura, S. Murakami, T. Inoue, Y. Mori, Appl. Phys. Lett., 96, 043702-1-3 (2010).
  • Nucleation and polymorphism of calcium carbonate by a vapor diffusion sitting drop crystallization technique:J. Go´mez-Morales, A´. Herna´ndez-Herna´ndez, G. Sazaki, J.M. Garci´a-Ruiz, Crystal Growth & Design, 10, 963-969 (2010).
  • An approach to the crystallization of DNA using the thermal reversible process of DNA duplex:T. Chatake, G. Sazaki, T. Kikkou, S. Fujiwara, T. Ishikawa, O. Matsumoto, Y. Morimoto, Crystal Growth & Design , 10, 1090-1095 (2010).


  • Growth of ice disk: Dependence of critical thickness for ice disk instability on supercooling of water:E. Yokoyama, R.F. Sekerka and Y. Furukawa, Journal of Physical Chemistry, B113, 4733-4738 (2009).
  • Apparatus for single ice crystal growth from the melt:Salvador Zepeda, Shuinichi Nakatsubo and Yoshinori Furukawa, Rev. Sci. Inst., 80, 115102 (2009).
  • Chiral and achiral mechanisms of regulation of calcite crystallization:M. Maruyama, K. Tsukamoto, G. Sazaki, Y. Nishimura, P.G. Vekilov, Crystal Growth & Design, 9, 127-135 (2009).
  • Influence of micro impurity on protein crystal growth studied by etch figure method: G. Dai, X. Liu, G. Sazaki, X.G. Zhang, J. Crystal Growth, 311, 548-552 (2009).
  • Femtosecond laser-induced nucleation of protein in agarose gel:H.Y. Yoshikawa, R. Murai, S. Sugiyama, G. Sazaki, T. Kitatani, Y. Takahashi, H. Adachi, H. Matsumura, S. Murakami, T. Inoue, K. Takano, Y. Mori, J. Crystal Growth, 311, 956-959 (2009).
  • Preparation and Characterization of ultraclean H: Si (111)-(1x1) surface studied by HREELS, SFM and STM-STS) :H. Kato, T. Taoka, S. Sudo, S. Nishikata, G. Sazaki, K. Nakajima, T. Yamada, R. Czajka, A. Wawro, and A. Kasuya, e-J. Surf. Sci. Nanotech., 7, 557-562 (2009).
  • Direct observation of adsorption sites of protein impurities and their effects on step advancement of protein crystals":A.E.S. Van Driessche, G. Sazaki, G. Dai, F. Otalora, J.A. Gavira, T. Matsui, I. Yoshizaki, K. Tsukamoto, K. Nakajima, Crystal Growth & Design, 9, 3062-3071 (2009).
  • First direct observation of elementary steps on the surfaces of glucose isomerase crystals under high pressure;Y. Suzuki, G. Sazaki, M. Matsumoto, M. Nagasawa, K. Nakajima, K. Tamura, Crystal Growth & Design, 9, 4289-4295 (2009).

著書 (Books)

  • "図説 表面分析ハンドブック"
    13.2 微分干渉顕微鏡・位相差顕微鏡
    佐﨑元,小松啓
    日本表面真空学会(編集), 朝倉書店, pp. 220-223 (2021)
  • "有機・無機材料の相転移ダイナミクス"
    第Ⅰ部3章 氷結晶の相転移ダイナミクスを見る
    佐﨑元,古川義純
    日本化学会(編集), 化学同人, pp.58-66 (2020)
  • "Compendium of Surface and Interface Analysis"
    Chapter10 Differential interference contrast microscopy/phase-contrast microscopy
    H. Komatsu, G. Sazaki
    The Surface Science Society of Japan (Ed.), Springer, pp.55-60 (2018)
  • "Compendium of Surface and Interface Analysis"
    Ed: The Surface Science Society of Japan (Springer, Singapore, 2018)
    ISBN 978-981-10-6155-4
    Chapter 10. Differential interference contrast microscopy/phase-contrast microscopy. H. Komatsu, G. Sazaki, pp. 55-60.
  • "Handbook of Crystal Growth"
    (Ed. T. Nishinaga, Elsevier, Amsterdam, 2015)
    ISBN 9780444563699
    Vol. I. 25. Snow and Ice Crystal Growth. Y. Furukawa, pp. 1061-1112.
  • 「低温環境の科学事典」
    Ed: 川村公隆, 大島慶一郎, 小達恒夫, 川村賢二, 佐﨑元, 杉山慎, 関宰, 宮﨑雄三, 高橋晃周, 西岡純, 原登志彦, 福井学, 藤吉康志, 三寺史夫, 本山秀明, 渡部直樹 (朝倉書店, 東京, 2016)
    第11-2項 氷Ihの相転移と自然現象, 佐﨑 元. pp. 360.
    第11-7項 表面融解, 佐﨑 元, pp. 368-369.
  • "Special issue: Recent Progress on Fundamentals and Applications of Crystal Growth; Proceedings of the 16th International Summer School on Crystal Growth (ISSCG-16)"
    Ed: G. Sazaki, H. Nada, S. Naritsuka
    Progress in Crystal Growth and Characterization of Materials, 62 (2), 41-416 (2016)
  • 低温科学便覧
    Ed: 北海道大学低温科学研究所 (丸善, 東京, 2015)
    第2章 氷および雪の結晶成長. 佐﨑 元,古川義純,長嶋 剣,村田憲一郎, pp. 11-49.
  • "Surface and Interface Science"
    Ed: K. Wandelt (WILEY-VCH, 2014)
    Volume 3 Chapter 17 Surface of Ice. Y. Furukawa, G. Sazaki, H. Nada, pp. 305-348.
  • "Phsyics and Chemistry of Ice 2010"
    Ed: Y. Furukawa, G. Sazaki, T. Uchida, N. Watanabe (Hokkaido University Press, 2011)

総説・解説 (Reviews)

  • In-situ optical microscopy observation of elementary steps on ice crystals grown in vapor and their growth kinetics
    G. Sazaki, M. Inomata, H. Asakawa, E. Yokoyama, S. Nakatsubo, K. Murata, K. Nagashima, Y. Furukawa
    Progress in Crystal Growth and Characterization of Materials 67(4), 100550 (2021)
  • 炭化水素は昆虫の体表をどのように覆って, 何をしているか
    片桐千仭, 金子文俊, 長嶋剣, 佐﨑元
    低温生物工学会誌 67(1), 23-29 (2021)
  • Ice Crystal Growth Experiments Conducted in the Kibo of International Space Station
    Y. Furukawa, K. Nagashima, E. Yokoyama, S. Nakatsubo, S. Zepeda, I. Yoshizaki, H. Tamura, T. Shimaoka, T. Sone, T. Maki, A. Yamamoto, T. Tomobe, K. Murata, G. Sazaki
    International Journal of Microgravity Science and Application 38(1), 380101 (2021)
  • Crystal-plane-dependent effects of antifreeze glycoprotein impurity for ice growth dynamics
    Y. Furukawa, K. Nagashima, S. Nakatsubo, S. Zepeda, K. Murata, G. Sazaki
    Philosophical Transactions of the Royal Society A 377(2146), 20180393 (2019)
  • The surface of ice under equilibrium and non-equilibrium conditions
    Y. Nagata, T. Hama, E.H.G. Backus, M. Mezger, D. Bonn, M. Bonn, G. Sazaki
    Accounts Chem. Res. 52 (4), 1006-1015 (2019)
  • 高分解能光学顕微鏡を駆使して氷の表面融解の本質に迫る
    麻川明俊, 佐﨑元, 長嶋剣, 中坪俊一, 古川義純
    Journal of the Society of Inorganic Materials, Japan: セッコウ・石灰・セメント・地球環境の科学 26(399), 99-104 (2019)
  • 昆虫と体表脂質構造への赤外分光法によるアプローチ:透湿性との関わり
    金子文俊, 片桐千仭, 長嶋剣, 佐﨑元
    昆虫と自然 54(3), 30-31 (2019)
  • 氷の表面はなぜ濡れるのか?
    村田憲一郎,佐﨑 元
    日本物理学会誌, 72 (9), 669-674 (2017).
  • ゼロ度以下の温度でも濡れている氷の表面
    佐﨑元
    化学と教育, 64 (8), 396-399 (2016).
  • In-situ observation of crystal surfaces by optical miscroscopy
    G. Sazaki, K. Nagashima, K. Murata, Y. Furukawa
    Progress in Crystal Growth and Characterization of Materials, 62 (2), 408-412 (2016).
  • 雪に秘められた化学に迫る
    古川義純
    「四季の化学-冬」, 月刊化学, 70(12), 42-45, (2014,1216)
  • 雪の結晶の形はいかにしてきまるのだろうか
    古川義純
    学士会報 No.907, 103-107, 2014-IV.
  • 氷ベーサル面上での形態が異なる2種類の擬似液体層の生成過程
    佐崎元、麻川明俊、長嶋剣、中坪俊一、古川義純
    Int. J. Microgravity Sci. 31(3), 100-105 (20141000).
  • Crystal Growth Experiments of Ice in Kibo of ISS
    Y. Furukawa, E. Yokoyama, I. Yoshizaki, H. Tamaru, T. Shimaoka, T. Sone
    Int. J. Microgravity Sci. 31(3), 93-99 (20141000).
  • 多面体結晶の形態安定性の観点からみた氷円盤結晶の成長不安定
    横山悦郎,古川義純
    Int. J. Microgravity Sci. (19-23)(20131000).
  • 溶液流れ下におけるタンパク質の結晶成長: 丸山美帆子,中村真利子,佐﨑 元,高橋義典,吉村政志,吉川洋史,杉山 成,安達宏昭,松村浩由,井上 豪,高野和文,村上 聡,森 勇介,日本結晶成長学会誌,40, 72-82, (2013).
  • タンパク質結晶表面上でのタンパク質分子の拡散・吸着・脱離挙動の光学その場観察: 佐﨑 元,岡田雅史,Guoliang Dai,松井拓郎,塚本勝男,中嶋一雄,日本結晶成長学会 誌,40, 83-90 (2013).
  • 圧力を使ったタンパク質の結晶成長の研究: 鈴木良尚,佐﨑 元,藤原貴久,塚本雅之,日本結晶成長学会誌,40, 107-114 (2013).
  • 高分解光学顕微鏡でみる氷結晶の成長素過程と表面融解: 佐﨑 元,サルバドール ゼペダ,中坪俊一,古川義純,日本食品科学工学会誌,60, 445-449 (2013).
  • 不凍糖タンパク質の氷/水界面吸着と結晶成長制御: 古川義純,Salvador Zepeda,宇田幸弘,中谷浩之,中坪俊一,低温科学,71, (69-70)(20130331)
  • 氷結晶表面での単位ステップと擬似液体層の直接光学観察: 佐﨑元,サルバドール・ゼペダ,中坪俊一,古川義純,低温科学,71, (1-13)(20130331)
  • 氷結晶の表面融解過程の光学その場観察: 佐﨑元,サルバドール・ゼペダ,中坪俊一,古川義純,応用物理,82, (150-153)(20130200)
  • 固相ハイドロゲル中でのタンパク質結晶化: 杉山 茂,松村浩由,丸山美帆子,佐﨑 元,廣瀬未果,安達宏昭,高野和文,村上 聡,井上 豪,森 勇介,日本結晶学会誌, 54, 300-303 (2012).
  • 氷の結晶成長の宇宙実験-結晶形の生成機構の解明を目指して-: 古川義純, 日本電子材料技術協会会報,43,(2012) 20-24.
  • ISS「きぼう」における氷の結晶成長とパターン形成実験: 古川義純,横山悦郎,吉崎泉,島岡太郎,曽根武彦,友部俊之, 日本結晶成長学会誌,39(2), (2012) 61-67.
  • In situ observation of elementary growth processes of protein crystals by advanced optical microscopy: G. Sazaki, A.E.S. Van Driessche, G. Dai, M. Okada, T. Matsui, F. Otarola, K. Tsukamoto, K. Nakajima, Protein & Peptide Letters, 19, 743-760 (2012).
  • Antifreeze proteins: computer simulation studies on the mechanism of ice growth inhibition (Invited Review): H. Nada and Y. Furukawa, Polymer Journal, 44, 690-698 (2012) ; doi:10.1038/pj.2012.13
  • 宇宙で作る氷の結晶:古川義純,化学と教育,60-6, (2012)238-241.
  • レーザー共焦点微分干渉顕微鏡を用いた氷結晶表面での分子ステップのその場観察: 佐崎 元,サルバドール ゼペダ,中坪俊一,古川義純, 光学,41, (2012)33-35 .
  • 無重力下における氷の結晶成長実験:古川義純,吉崎 泉,ながれ,30 (2011) 25-30.
  • ICE: in Encyclopedia of Snow, Ice and Glacier. Ed. V.L. Singh, P. Singh, U.K. Haritashya, Springer, 557-560, (20110000).
  • 凍結に及ぼす不凍糖タンパク質の影響:古川義純,「昆虫の低温耐性-その仕組みと調べ方-」第4部第2章,積木久明,田中一裕,後藤美千代 編,岡山大学出 版会,(2010) 116-124.
  • 氷結晶成長を支配するタンパク質-氷点下に生きる生物はいかにして凍結を回避するか-:古川義純、Salvador Zepeda, 宇田幸弘,日本物理学会誌, 65(2010)98-103.
  • 氷の結晶成長における形態不安定化-ISS「きぼう」実験の概要:古川義純、横山悦郎、吉崎泉、依田眞一、田中哲夫、島岡太郎、曽根武彦、友 部俊之,日本マイクログラビティ応用学会誌、27 (2010)24-31.
  • 氷の表面は融けている!-滑りやすさのメカニズム-:古川義純,日本 機械学会誌,112-5 (2009) 54-57.
  • 宇宙実験がついに私たちの手に!-「きぼう」での氷結晶成長実験:古川義純,化学(化学同人)、64-8(2009)38-42
  • 雪の結晶:古川義純,雪氷研究の系譜(日本雪氷学会北海道支部), (2009)49-51.
  • 不凍糖タンパク質の氷/水溶液界面吸着と氷結晶成長:古川義純,冷凍(日本空調冷凍学会誌), 84(2009)929-934.
  • 謎に満ちた雪の結晶(ケネス・リブレヒト著):(翻訳)古川義純,パリティ(丸善出版),24-12(2009) 4-12.
  • Crystal quality enhancement by magnetic fields:G. Sazaki, Prog. Biophys. Mol. Biol., 101, 45-55 (2009).

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