Publications

Original Papers; 原著論文(@: a top or corresponding author)

1.Crystal growth of ice/snow and related materials; 氷・雪および関連材料について
@1-1) G. Sazaki, S. Zepeda, S. Nakatsubo, E. Yokoyama, Y. Furukawa, "Elementary steps at the surface of ice crystals visualized by advanced optical microscopy", Proc. Nat. Acad. Sci. USA., 107, 19702-19707 (2010). (Selected as In This Issue PNAS)
@1-2) G. Sazaki, S. Zepeda, S. Nakatsubo, M. Yokomine, Y. Furukawa, "Quasi-liquid layers on ice crystal surfaces are made up of two different phases", Proc. Nat. Acad. Sci. USA., 109, 1052-1055 (2012).(Selected as In This Issue PNAS)
@1-3) G. Sazaki, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, "How do quasi-liquid layers emerge from ice crystal surfaces?", Crystal Growth & Design, 13, 1761-1766 (2013).
1-4) Y. Suzuki, G. Sazaki, K. Hashimoto, T. Fujiwara, Y. Furukawa, "Colloidal crystallization utilizing interfaces of unidirectionally growing crystals", J. Crystal Growth, 383, 67-71 (2013).
@1-5) G. Sazaki, H. Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, "Double spiral steps on Ih ice crystal surfaces grown from water vapor just below the melting point", Crystal Growth & Design, 14, 2133-2137 (2014).
@1-6) H. Asakawa, G. Sazaki, E. Yokoyama, K. Nagashima, S. Nakatsubo, Y. Furukawa, "Roles of surface/volume diffusion in the growth kinetics of elementary spiral steps on ice basal faces grown from water vapor", Crystal Growth & Design, 14, 3210-3220 (2014).
1-7) D. A. Vorontsov, G. Sazaki, S. H. Hyon, K. Matsumura, Y. Furukawa, "Antifreeze effect of carboxylated e-poly-L-lysine on the growth kinetics of ice crystals", J. Phys. Chem. B, 118, 10240-10249 (2014).
@1-8) 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 (2015.06.11).
1-9) K. Murata, H. Asakawa, K. Nagashima, Y. Furukawa, G. Sazaki, "In-situ determination of surface tension-to-shear viscosity ratio for quasi-ilquid layers on ice crystal surfaces", Phys. Rev. Lett., 115 (25), 256103-1-5 (2015.12.18).
@1-10) H. Asakawa, G. Sazaki, K. Nagashima, S. Nakatsubo, Y. Furukawa, "Two types of quasi-liquid layers on ice crystals are formed kineticcally", Proc. Nat. Acad. Sci. USA., 113 (7), 1749-1753 (2016.2.1). (Introduced in Research Highlight in Nature Physics, 12 (3), 201 (2016))
1-11) 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 (2016.2.16).
1-12) K. Murata, H. Asakawa, K. Nagashima, Y. Furukawa, G. Sazaki, "A new thermodynamic origin of surface melting on ice crystals", Proc. Nat. Acad. Sci. USA., 113 (44), E6741-E6748 (2016.10.17).
1-13) 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, " Oscillations and accelerations of ice crystal growth rates in microgravity in presence of antifreeze glycoprotein impurity in supercooled water", Scientific Reports, 7, 43157(1-10) (2017.3.6).
@1-14) M. Inomata, K. Murata, H Asakawa, K. Nagashima, S. Nakatsubo, Y. Furukawa, G. Sazaki, "Temperature dependence of the growth kinetics of elementary spiral steps on ice basal faces grown from water vapor", Crystal Growth & Desing, submitted.

2.Crystal growth of protein and other biomaterials; タンパク質および生体関連材料について
@2-1) G. Sazaki, H. Ooshima, J. Kato, Y. Harano, and N. Hirokawa, "Mechanism of crystallization of enzyme protein thermolysin", J. Crystal Growth, 130, 357-367 (1993).
@2-2) G. Sazaki, H. Ooshima, and J. Kato, "Effect of supersaturation ratio on the growth rate and number of protease thermolysin crystals", J. Crystal Growth, 135, 199-208 (1994).
@2-3) G. Sazaki, S. Aoki, H. Ooshima and J. Katou, "Effect of self-degradation products on crystallization of protease thermolysin", J. Crystal Growth, 139, 95-103 (1994).
2-4) K. Kurihara, S. Miyashita, G. Sazaki, T. Nakada, Y. Suzuki and H. Komatsu, "Interferometric study on crystal growth of tetragonal lysozyme crystal." , J. Crystal Growth, 166, 904-908 (1996).
@2-5) G. Sazaki, K. Kurihara, T. Nakada, S. Miyashita and H. Komatsu, "A novel approach to the solubility measurement of protein crystals by two-beam interferometry.", J. Crystal Growth, 169, 355-360 (1996).
@2-6) G. Sazaki, E. Yoshida, H. Komatsu, T. Nakada, S. Miyashita and K. Watanabe, "Effects of a magnetic field on the nucleation and growth of protein crystals", J. Crystal Growth, 173, 231-234, (1997).
@2-7) E. Kashimoto, G. Sazaki, K. Hasegawa, T. Nakada, S. Miyashita, H. Komatsu K. Sato, Y. Matsuura, and H. Tanaka, "Crystallization studies on a concanavalin A crystal with high-index faces", J. Crystal Growth, 186, 461-470 (1998).
2-8) S. Miyashita, K. Kurihara, K. Hasegawa, G. Sazaki, T. Nakada, S.D. Durbin, H. Komatsu, M. Fujishima, and M. Koyama, "Concentration field around a growing crystal under microgravity", J. Jpn. Soc. Microgravity Appl., 15, 577-581 (1998).
@2-9) G. Sazaki, E. Nagatoshi, Y. Suzuki, S.D. Durbin, S. Miyashita, T. Nakada and H. Komatsu, "Solubility of tetragonal and orthorhombic lysozyme crystals under high pressure", J. Crystal Growth, 196, 204-209 (1999).
2-10) K. Kurihara, S. Miyashita, G. Sazaki, T. Nakada, H. Komatsu, T. Ohba, and K. Ohki, "Incorporation of impurity to a tetragonal lysozyme crystal", J. Crystal Growth, 196, 285-290 (1999).
@2-11) S. Yanagiya, G. Sazaki, S.D. Durbin, S. Miyashita, T. Nakada, H. Komatsu, K. Watanabe, and M. Motokawa, "Effect of a magnetic field on the orientation of hen egg-white lysozyme crystals", J. Crystal Growth, 196, 319-324 (1999).
2-12) T. Nakada, G. Sazaki, S. Miyashita, S.D. Durbin and H. Komatsu, "Direct AFM observations of impurity effects on a lysozyme crystal", J. Crystal Growth, 196, 503-510 (1999).
@2-13) G. Sazaki, S.D. Durbin, S. Miyashita, T. Ujihara, K. Nakajima, M. Motokawa, "Magnetic damping of the temperature-driven convection in NaCl aqueous solution using a static and homogeneous field of 10 T", Jpn. J. Appl. Phys., 38, L842-L844 (1999).
2-14) Y. Suzuki, S. Miyashita, G. Sazaki, T. Nakada, T. Sawada, and H. Komatsu, "Effects of Pressure on Growth Kinetics of Tetragonal Lysozyme Crystals", J. Crystal Growth, 208, 638-644 (2000).
@2-15) S. Yanagiya, G. Sazaki, S.D. Durbin, S. Miyashita, K. Nakajima, H. Komatsu, K. Watanabe, M. Motokawa, "Effects of a magnetic field on the growth rate of tetragonal lysozyme crystals", J. Crystal Growth, 208, 645-650 (2000).
2-16) Y. Suzuki, T. Sawada, S. Miyashita, H. Komatsu, G. Sazaki, T. Nakada, "Interferometric study of the solubility of lysozyme crystal under high pressure", J. Crystal Growth, 209, 1018-1022 (2000).
2-17) T. Sato, Y. Yamada, S. Saijo, T. Nakaura, T. Hori, R. Hirose, N. Tanaka, G. Sazaki, K. Nakajima, N. Igarashi, M. Tanaka, Y. Matsuura, "Enhancement in the perfection of orthorhombic lysozyme crystals grown in a high magnetic field (10T)", Acta Cryst., D56, 1079-1083 (2000).
2-18) K.Ninomiya, T. Yamamoto, T. Oheda, K. Sato, G. Sazaki, T. Matsuura, "Morphology and solubility of Taka-amylase A crystals", J. Crystal Growth, 222, 311-316 (2001).
@2-19) H. Hondoh, G. Sazaki, S. Miyashita, S.D. Durbin, K. Nakajima, and Y. Matsuura, "Macrobond analysis of the macro- and micro-morphology of monoclinic lysozyme crystals", Crystal Growth and Design, 1, 327-332 (2001).
2-20) T. Sato, Y. Yamada, S. Saijo, T. Nakaura, T. Hori, R. Hirose, N. Tanaka, G. Sazaki, K. Nakajima, N. Igarashi, M. Tanaka, Y. Matsuura, "Improvement in diffraction maxima in orthorhombic HEWL crystal grown under high magnetic field", J. Crystal Growth, 232, 229-236 (2001).
@2-21) G. Sazaki, S. Miyashita, M. Nokukra, T. Ujihara, K. Fujiwara, N. Usami, and K. Nakajima, "In-situ observation of the Marangoni convection in a NaCl aqueous solutions under microgravity", J. Crystal Growth, 234, 516-522 (2002).
2-22) Y. Suzuki, G. Sazaki, S. Miyashita, T. Sawada, K. Tamura, and H. Komatsu, "Protein crystallization under high pressure", Biochim. Biophys. Acta -Protein Structure and Molecular Enzymology, 1595,345-356 (2002).
2-23) Y. Suzuki, G. Sazaki, K. Visuri, K. Tamura, K. Nakajima, S. Yanagiya, "Significant Decrease in the Solubility of Glucose Isomerase Crystals under High Pressure", Crystal Growth and Design, 2,321-324 (2002).
2-24) N. Sato, Y. Uragami, T. Nishizaki, Y. Takahashi, G. Sazaki, K. Sugimoto, T. Nonaka, E. Masai, M. Fukuda, T. Senda, "Crystal structures of the reaction intermediate and its homologue of an extradiol-cleaving catecholic dioxygenase", J. Mol. Biol., 321, 621-636 (2002).
2-25) Y. Suzuki, S. Miyashita, G. Sazaki, T. Nakada, T. Sawada, H. Komatsu, "Erratum to "effects of pressure on growth kinetics of tetragonal lysozyme crystals" J. Crystal Growth 208 (2000) 638-644", J. Crystal Growth, 234, 610 (2002).
@2-26) Y. Nagatoshi, G. Sazaki, Y. Suzuki, S. Miyashita, T. Matsui, T. Ujihara, K. Fujiwara, N. Usami, K. Nakajima, "Effects of high pressure on the growth kinetics of orthorhombic lysozyme crystlas", J. Crystal Growth, 254, 188-195 (2003).
2-27) T. Sato, S. Hara, T. Matsui, G. Sazaki, S. Saijo, T. Ganbe, N. Tanaka, Y. Sugano, M. Shoda, "A unique dye-decolorizing peroxidase, DyP, from Thanatephorus cucumeris Dec 1: heterologous expression, crystallization and preliminary X-ray analysis", Acta Cryst., D60, 149-152 (2004).
@2-28) G. Sazaki, A. Moreno, K. Nakajima, "Novel coupling effects of the magnetic and electric fields on protein crystallization", J. Crystal Growth, 262, 499-502 (2004).
@2-29) G. Sazaki, T. Matsui, K. Tsukamoto, N. Usami, T. Ujihara, K. Fujiwara, K. Nakajima, "In-situ observation of elementary growth steps on the surface of protein crystals by laser confocal microscopy", J. Crystal Growth, 262, 536-542 (2004).
2-30) A. Moreno and G. Sazaki, "The Use of a new ad hoc growth cell with parallel electrodes for the nucleation control of lysozyme", J. Crystal Growth, 264, 438-444 (2004).
2-31) T. Asai, Y. Suzuki, G. Sazaki, K. Tamura, T. Sawada,“Effects of high pressure on the solubility and growth kinetics of monoclinic lysozyme crystals”, Cell. Mol. Biol., 50, 329-334 (2004).
2-32) S. Saijo, Y. Yamada, T. Sato, N. Tanaka, T. Matsui, G. Sazaki, K. Nakajima, Y. Matsuura, "Structural consequences of hen egg-white lysozyme orthorhombic crystal growth in a high magnetic field: validation of X-ray diffraction intensity, conformational energy searching and quantitative analysis of B factors and mosaicity", Acta Cryst. D61, 207-217 (2005).  
2-33) Y. Suzuki, G. Sazaki, T. Matsui, K. Nakajima, K. Tamura, "Kinetic acceleration of the growth rate of glucose isomerase crystals under high pressure", J. Phys. Chem. B 109, 3222-3226 (2005).
2-34) E. Nieto-Mendoza, B.A. Frontana-Uribe, G. Sazaki, A. Moreno, "Investigations on electromigration phenomena for protein crystallization using crystal growth cells with multiple electrode: Effect of the potential control:, J. Crystal Growth, 275, e1437-e1446 (2005).  
@2-35) G. Sazaki, K. Tsukamoto, S. Yai, M. Okada, K. Nakajima, " In situ observation of dislocations in protein crystals during growth by advanced optical microscopy", Crystal Growth and Design, 5, 1729-1735 (2005). 
2-36) P. Dold, E. Ono, K. Tsukamoto, G. Sazaki, "Step velocity in tetragonal lysozyme growth as a function of impurity concentration and mass transport conditions", J. Crystal Growth , 293, 102-109 (2006).  
@2-37) T. Matsui, G. Sazaki, H. Hondoh, Y. Matsuura, T. Nakada, K. Nakajima, "Impurity effects of lysozyme molecules specifically labeled with a fluorescent reagent on the crystallization of tetragonal and monoclinic lysozyme crystals", J. Crystal Growth, 293, 415-422 (2006).
2-38) K. Furuta, T. Okutsu, G. Sazaki, I. Yoshizaki, H. Horiuchi, T. Shimizu, M. Yamamoto, Y. Tanaka, H. Hiratsuka, "Detection of covalent-bonded dimmer in photochemical-induced crystallization of protein", Chem. Lett., 36 , 714-715 (2007).
2-39) H. Yoshikawa, T. Adachi, G. Sazaki, T. Matsui, K. Nakajima, H. Masuhara, "Surface enhanced hyper-Raman spectroscopy using optical trapping of silver nanoparticles for molecular detection in solution" , J. Opt. A: Pure Appl. Opt. , 9, S164-S171 (2007).
@2-40) A.E.S. Van Driessche, G. Sazaki, F. Otalora, F.M. Gonzalez-Rico, P. Dold, K. Tsukamoto, K. Nakajima, "Direct and non-invasive observation of two-dimensional nucleation behavior of protein crystals by advanced optical microscopy", Crystal Growth and Design , 7, 1980-1987 (2007).
2-41) T. Okutsu, K. Sugiyama, K. Furuta, I. Watanabe, H. Mori, K. Obi, K. Horota, H. Horiuchi, G. Sazaki, S. Veesler, H. Hiratsuka, "Photochemically induced nucleation in supersaturated and undersaturated thaumatin solutions", J. Photochem. Photobiol., 190 , 88-93 (2007).  
@2-42) G. Sazaki, M. Okada, T. Matsui, T. Watanabe, H. Higuchi, K. Tsukamoto, K. Nakajima, "Single-molecule visualization of diffusion at the solution-crystal interface", Crystal Growth & Design, 8, 2024-2031 (2008).
2-43) I. Hanasaki, H. Takahashi, G. Sazaki, K. Nakajima, S. Kawano, "Single-molecule measurements and molecular dynamics simulations of protein molecules near silicon substrates", Biophys. J. D: Appl. Phys., 41, 095301(1-9) (2008).
2-44) A.E.S. Van Driessche, F. Otalora, J.A. Gavira, G. Sazaki, "Is agarose an impurity or an impurity filter? In situ observation of the joint gel/impurity effect on protein crystal growth kinetics", Crystal Growth & Design, 8, 3623-3629 (2008).
2-45) H.Y. Yoshikawa, R. Murai, S. Maki, T. Kitatani, S. Sugiyama, G. Sazaki, H. Adashi, T. Inoue, H. Matsumura, K. Takano, S. Murakami, T. Sasaki, Y. Mori, "Laser energy dependence on femtosecond laser-induced nucleation of protein", Appl. Phys. A, 93, 911-915 (2008).
2-46) A.E.S. Van Driessche, F. Otalora, G. Sazaki, M. Sleutel, K. Tsukamoto, J.A. Gavira, "Comparison of different experimental techniques for the measurement of crystal growth kinetics", Crystal Growth & Design, 8 , 4316-4323 (2008).
2-47) M. Maruyama, K. Tsukamoto, G. Sazaki, Y. Nishimura, P.G. Vekilov, "Chiral and achiral mechanisms of regulation of calcite crystallization", Crystal Growth & Design, 9, 127-135 (2009).
2-48) G. Dai, X. Liu, G. Sazaki, X.G. Zhang, "Influence of micro impurity on protein crystal growth studied by etch figure method", J. Crystal Growth, 311, 548-552 (2009).
2-49) 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, "Femtosecond laser-induced nucleation of protein in agarose gel", J. Crystal Growth, 311, 956-959 (2009).
@2-50) A.E.S. Van Driessche, G. Sazaki, G. Dai, F. Otalora, J.A. Gavira, T. Matsui, I. Yoshizaki, K. Tsukamoto, K. Nakajima, "Direct observation of adsorption sites of protein impurities and their effects on step advancement of protein crystals", Crystal Growth & Design, 9, 3062-3071 (2009).
@2-51) Y. Suzuki, G. Sazaki, M. Matsumoto, M. Nagasawa, K. Nakajima, K. Tamura, "First direct observation of elementary steps on the surfaces of glucose isomerase crystals under high pressure", Crystal Growth & Design, 9, 4289-4295 (2009).
2-52) 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, "Enhancement of femtosecond laser-induced nucleation of protein in a gel solution", Appl. Phys. Lett., 96, 043702-1-3 (2010).
2-53) J. Go´mez-Morales, A´. Herna´ndez-Herna´ndez, G. Sazaki, J.M. Garci´a-Ruiz, "Nucleation and polymorphism of calcium carbonate by a vapor diffusion sitting drop crystallization technique", Crystal Growth & Design, 10, 963-969 (2010).
2-54) T. Chatake, G. Sazaki, T. Kikkou, S. Fujiwara, T. Ishikawa, O. Matsumoto, Y. Morimoto, "An approach to the crystallization of DNA using the thermal reversible process of DNA duplex", Crystal Growth & Design , 10, 1090-1095 (2010).
2-55) A.E.S. Van Driessche, J.M. García-Ruíz, J.M. Delgado-López, G. Sazaki, "In situ observation of step dynamics on gypsum crystals", Crystal Growth & Design, 10, 3909-3916 (2010).
2-56) T. Fujiwara, Y. Suzuki, G. Sazaki, K. Tamura, "Solubility measurements of protein crystals under high pressure by in situ observation of steps on crystal surfaces",J. Phys. Conf. Series, 215, 012159-1-5 (2010).
@2-57) G. Dai, G. Sazaki, T. Matsui, K. Tsukamoto, K. Nakajima, Q. Kang, W. Hu, "Gradual immobilization processes of molecules during transitions from solute to solid states", Crystal Growth & Design, 11, 88-92 (2011).
2-58) 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).
2-59) R. Tero, G. Sazaki, T. Ujihara, T. Urisu, "Anomalous diffusion in supported lipid bilayers induced by oxide surface nanostructures", Langmuir, 27, 9662-9665 (2011).
2-60) S. Sugiyama, M. Maruyama, G. Sazaki, M. Hirose, H. Adachi, K. Takano, S. Murakami, T. Inoue, Y. Mori, H. Matsumura, "Growth of protein crystals in hydrogels prevents osmotic shock", J. Am. Chem. Soc., 134, 5786-5789 (2012). (Selected as JACS Spotlights)
2-61) M. Sleutel, G. Sazaki, A.E.S. Van Driessche, "Spiral-mediated growth can lead to crystals of higher purity", Crystal Growth & Design, 12, 2367-2374 (2012).
2-62) 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, "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", Crystal Growth & Design, 12, 2856-2863 (2012).
2-63) 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, "Spacially precise, soft microseeding of single protein crystals by femtosecond laser ablation", Crystal Growth & Design, 12, 4334-4339 (2012).
2-64) S. Sugiyama, N. Shimizu, G. Sazaki, M. Hirose, Y. Takahashi, M. Maruyama, H. Matsumura, H. Adachi, K. Takano, S. Murakami, T. Inoue, Y. Mori, "A novel approach for protein crystallization by a synthetic hydrogel with thermoreversible gelation polymer", Crystal Growth & Design, 13, 1899-1904 (2013).
2-65) T. Matsuzaki, G. Sazaki, M. Suganuma, T. Watanabe, T. Yamazaki, M. Tanaka, S. Nakabayashi, H. Yoshikawa, "High contrast visualization of cell-hydrogel contact by advanced interferometric optical microscopy", J. Phys. Chem. Lett., 5, 253-257 (2014).
@2-66) G. Dai, L. Zhen, G. Sazaki, Y. Furukawa, "The attachment and detachment processes of individual lysozyme molecules on a surface of a monoclinic lysozyme crystal studied by fluorescent single-molecule visualization", Crystal Growth & Design, 14, 5303-5309 (2014).
2-67) S. Ibaraki, R. Ise, K. Ishimori, Y. Oaki, G. Sazaki, E. Yokoyama, K. Tsukamoto, H. Imai, "Oscillatory growth for twisting crystals", Chem. Comm., 51 (40), 8516-8519 (2015).
@2-68) G. Sazaki, G. Dai, "Direct observation of bunching of elementary steps on protein crystals under forced flow conditions", Theoretical & Applied Mechanics Letters, 5 (4), 173-176 (2015.5.22).
2-69) S. Mizue, S. Ibaraki, R. Ise, G. Sazaki, Y. Oaki, H. Imai, Hiroaki, "Self-organized formation of parallel-banded structures through synchronization of twisted growth ", Crystal Growth & Design, 17 (7), 3694-3699 (2017.5.30). DOI: 10.1021/acs.cgd.7b00270

3. Crystal growth of organic semiconductor thin films; 有機半導体薄膜について
3-1) S. Yanagiya, S. Nishikata, G. Sazaki, A. Hoshino, K. Nakajima, T. Inoue, "Recrestallization of Cu-phythalocyanine on KCl (001) substrates by annealing method", J. Crystal Growth, 254, 244-250 (2003).
@3-2) G. Sazaki, T. Fujino, J.T. Sadowski, N. Usami, T. Ujihara, K. Fujiwara, H. Takahashi, E. Matsubara, T. Sakurai, K. Nakajima, "Epitaxial relation and island growth of perylene-3.4.9.10-tetracarboxylic dianhydride (PTCDA) thin film crystals on a hydrogen-terminated Si(111) substrate", J. Crystal Growth, 262, 196-201 (2004).
@3-3) G. Sazaki, T. Fujino, N. Usami, T. Ujihara, K. Fujiwara, K. Nakajima, "Effects of vicinal steps on the island growth and orientation of epitaxially grown perylene-3.4.9.10-tetracarboxylic dianhydride (PTCDA) thin film crystals on a hydrogen-terminated Si(111) substrate", J. Crystal Growth, 273, 594-602 (2005).
3-4) J.T. Sadowski, G. Sazaki, S. Nishikata, A.Al. Mahboob, Y. Fujikawa, K. Nakajima, R.M. Tromp, T. Sakurai, "Self-polycrystallization from a single nucleus induced by anisotropic growth", Phys. Rev. Lett., 98, 046104-1-4 (2007).
@3-5) S. Nishikata, G. Sazaki, T. Takeuchi, N. Usami, S. Suto, K. Nakajima, "Step-induced anisotropic growth of pentacene thin film crystals on a hydrogen-terminated Si(111) surface", Crystal Growth and Design., 7, 439-444 (2007).
3-6) H. Kato, T. Taoka, S. Nishikata, G. Sazaki, T. Yamada, R. Czajka, A. Wawro, K. Nakajima, A. Kasuya, S. Suto, "Preparation of an ultra-clean and atomically controlled hydrogen-terminated Si(111)-(1 × 1) surface revealed by high resolution electron energy loss spectroscopy, atomic force microscopy, and scanning tunneling microscopy: aqueous NH 4 F etching process of Si(111)", Jpn. J. Appl. Phys., 46 , 5701-5705 (2007) .
@3-7) S. Nishikata, G. Sazaki, J.T. Sadowski, A. Al-Mahboob, T. Nishihara, Y. Fujikawa, S. Suto, T. Sakurai, K. Nakajima, "A polycrystallization domain structure of pentacene thin films epitaxially grown on a hydrogen-terminated silicon (111) surface", Phys. Rev. B, 76, 165424:1-10 (2007).  
3-8) H. Kato, T. Taoka, S. Sudo, S. Nishikata, G. Sazaki, K. Nakajima, T. Yamada, R. Czajka, A. Wawro, and A. Kasuya, "Preparation and Characterization of ultraclean H: Si (111)-(1x1) surface studied by HREELS, SFM and STM-STS", e-J. Surf. Sci. Nanotech., 7, 557-562 (2009).

4.Crystal growth of semiconductor, oxide, metals, etc.; 半導体,酸化物,金属などについて
4-1) T. Nakada, S. Miyashita, G. Sazaki, H. Komatsu and A. A. Chernov, "Atomic force microscopic study of subsurface ordering and structural transforms in n-alcohol on mica and graphite", Jpn. J. Appl. Phys., 35, L52-L55 (1996).
4-2) T. Nishizawa, T. Nakada, Y. Kinoshita, S. Miyashita, G. Sazaki, and H. Komatsu, "AFM observation of sulfate adlayer on Au(111) in sulfuric acid solution", Surface Sci., 367, L73-L78 (1996).
4-3) K. Nakajima, S. Kodama, S. Miyashita, G. Sazaki and S. Hiyamizu, "Growth of Ge rich SixGe1-x single crystal with uniform composition (x=0.02) on a compositionally graded crystal for use as GaAs solar cells", J. Crystal Growth, 205, 270-276 (1999).
4-4) Y. Nishimura, S. Miyashita, S.D. Durbin, T. Nakada, G. Sazaki, and H. Komatsu, "New growth method of oxide crystals by PO2 change applied to SmBa2Cu3Ox single crystals", J. Crystal Growth, 205, 503-509 (1999).
4-5) K. Nakajima, T. Ujihara, S. Miyashita, and G. Sazaki, "Phase diagrams and stable structures of stranski-krastanov structure mode for III-V ternary quantum dots", J. Korean Assoc. Crystal Growth, 9, 387-395 (1999).
4-6) Y. Nishimura, Y. Matsuoka, S. Miyashita, H. Komatsu, T. Nakada, G. Sazaki, "Growth of Y2Cu2O5 single crystals by the traveling solvent floating zone method", J. Crystal Growth, 207, 206-213 (1999).
4-7) K. Nakajima, S. Miyashita, G. Sazaki, "Thickness dependence of stable structure of Stranski-Krastanov mode in the GaPSb/GaP system", J. Crystal Growth, 209, 637-647 (2000).
4-8) T. Ujihara, G. Sazaki, S. Miyashita, N. Usami and K. Nakajima, "In-situ measurement of composition in high temperature solutions by the X-ray fluorescence spectrometry", Jpn. J. Appl. Phys., 39, 5981-5982 (2000).
4-9) N. Usami, Y. Azuma, T. Ujihara, G. Sazaki, Y. Yakabe, T. Kondo, S. Koh, B. Zhang, Y. Segawa, Y. Shiraki, S. Kodama, and K. Nakajima, "SiGe bulk crystal as a new lattice-matched substrate to GaAs for solar cell applications", Appl. Phys. Lett., 77, 3565-3567 (2000).
4-10) K. Nakajima, T. Ujihara, G. Sazaki, and N. Usami, " Phase diagram calculation for epitaxial growth of GaInAs on InP considering the surface, interfacial and strain energies", J. Crystal Growth, 220, 413-424 (2000).
4-11) K. Nakajima, T. Ujihara, S. Miyashita and G. Sazaki, "Effects of misfit dislocation and AlN buffer layer on the GaInN/GaN phase diagram of the growth mode", J Appl. Phys., 89, 146-153 (2001).
4-12) Y. Azuma, N. Usami, T. Ujihara, G. Sazaki, Y. Murakami, S. Miyashita, K. Fujiwara, and K. Nakajima, "Growth of SiGe bulk crystal with uniform composition by directly controlling the growth temperature at the crystal-melt interface using in-situ monitoring system", J. Crystal Growth, 224, 204-211 (2001).
4-13) T. Ujihara, G. Sazaki, K. Fujiwara, N. Usami, and K. Nakajima, "Physical model for the evaluation of solid-liquid interfacial tension in silicon", J. Appl. Phys., 90, 750-755 (2001).
4-14) N. Usami, Y. Azuma, T. Ujihara, G. Sazaki, S. Miyashita, Y. Murakami, and K. Nakajima, "Growth of SixGe1-x (x=0.15) bulk crystal with uniform composition utilizing in situ monitoring of the crystal-solution interface", Jpn. J. Appl. Phys., 40, 4141-4144 (2001).
4-15) N. Usami, Y. Azuma, T. Ujihara, G. Sazaki, K. Nakajima, Y. Yakabe, T. Kondo, K. Kawaguchi, S. Koh, Y. Shiraki, B.P. Zhang, Y. Segawa, and S. Kodama, "Molecular beam epitaxy of GaAs on nearly lattice-matched SiGe substrates grown by the multicomponent zone-melting method", Semicond. Sci. Technol., 16, 699-703 (2001).
4-16) N. Usami, K. Fujiwara, T. Ujihara, G. Sazaki, H. Yaguchi, Y. Murakami, K. Nakajima, "Control of macroscopic absorption coefficient of multicrystalline SiGe by microscopic compositional distribution", Jpn. J. Appl. Phys., 41, L37-L39 (2002).
4-17) N. Usami, Y. Azuma, T. Ujihara, G. Sazaki, K. Fujiwara, Y. Murakami, and K. Nakajima, "Fabrication of SiGe bulk crystals with uniform compositions as substrates for Si-based heterostructures", Mat. Sci. Eng., B89, 364-367 (2002).
@4-18) G. Sazaki, Y. Azuma, S. Miyashita, N. Usami, T. Ujihara, K. Fujiwara, Y. Murakami, and K. Nakajima, "In-situ monitoring system of the position and temperature at the crystal-solution interface", J. Crystal Growth, 236, 125-131 (2002).
4-19) K. Nakajima, N. Usami, K. Fujiwara, Y. Murakami, T. Ujihara, G. Sazaki, and T. Shishido, "Melt growth of multicrystalline SiGe with large compositional distribution for new solar cell applications", Solar Energy Materials and Solar Cells, 72, 93-100 (2002).
4-20) K. Nakajima, N. Usami, K. Fujiwara, Y. Murakami, T. Ujihara, G. Sazaki and T. Shishido, "Growth and properties of SiGe multicrystals with microscopic compositional distribution for high-efficiency solar cells", Solar Energy Materials and Solar Cells, 73, 305-320 (2002).
4-21) K. Nakajima, T. Kusunoki, Y. Azuma, N. Usami, K. Fujiwara, T. Ujihara, G. Sazaki, and T. Shishido, "Compositional variation in Si-rich SiGe single crystals grown by multi-component zone melting method using Si seed and source crystals", J. Crystal Growth, 240, 373-381 (2002).
4-22) T. Ujihara, K. Fujiwara, G. Sazaki, N. Usami, and K. Nakajima, "New method for measurememnt of mutual diffusion coefficient in metal solutions based on Fick's first law", J. Crystal Growth, 241,387-394 (2002).
4-23) N. Usami, T. Takahashi, K. Fujiwara, T. Ujihara, G. Sazaki, Y. Murakami, and K. Nakajima, "Evidence of the presence of built-in strain in multicrystalline SiGe with large compositional distribution", Jpn. J. Appl. Phys., 41, 4462-4465 (2002).
4-24) T. Ujihara, K. Fujiwara, G. Sazaki, N. Usami, K. Nakajima, "Simultaneous in-situ measurement of solute and temperature distributions in the alloy solutions", J. Crystal Growth, 242, 313-320 (2002).
4-25) T. Ujihara, K. Fujiwara, G. Sazaki, N. Usami, and K. Nakajima, "Evaluation of mutual and intrinsic diffusion coefficients in the liquid GaGe binary system using novel determination method based on Fick's first law", J. Non-cryst. Solids, 312-314, 196-202 (2002)
4-26) K. Fujiwara, K. Nakajima, T. Ujihara, N. Usami, G. Sazaki, H. Hasegawa, S. Mizoguchi, K. Nakajima, "In situ observation of crystal growth behavior from silicon melt", J. Crystal Growth, 243, 275-282 (2002).
4-27) N. Usami, T. Takahashi, K. Fujiwara, T. Ujihara, G. Sazaki, Y. Murakami, and K. Nakajima, "Strain distribution of Si thin film grown on multicrystalline-SiGe with microscopic compositional distribution", J. Appl. Phys., 92, 7098-7101 (2002).
4-28) Y. Azuma, N. Usami, T. Ujihara, K. Fujiwara, G. Sazaki, Y. Murakami, and K. Nakajima, "Growth of SiGe bulk crystals with uniform composition by utilizing feedback control system of the crystal-melt interface position for precise control of the growth temperature", J. Crystal Growth, 250, 298-304 (2003).
4-29) T. Ujihara, K. Obara, N. Usami, K. Fujiwara, G. Sazaki, T. Shishido, K. Nakajima, "High-quality crystalline silicon layer grown by liquid phase epitaxy method at low growth temperature", Jpn. J. Appl. Phys., 42, L217-L219 (2003).
4-30) K. Kutsukake, N. Usami, K. Fujiwara, T. Ujihara, G. Sazaki, B. P. Zhang, Y. Segawa, and K. Nakajima, "Fabrication of homogeneous SiGe-on-insulator through thermal diffusion of Ge on Si-on-insulator substrate", Jpn. J. Appl. Phys., 42, L232-L234 (2003).
4-31) N. Usami, T. Ichitsubo, T. Ujihara, T. Takahashi, K. Fujiwara, G. Sazaki, and K. Nakajima, "Influence of the elastic strain on the band structure of ellipsoidal SiGe coherently embedded in Si matrix", J. Appl. Phys., 94, 916-920 (2003).
4-32) A. Alguno, N. Usami, T. Ujihara, K. Fujiwara, G. Sazaki, K. Nakajima, Y. Shiraki, "Enhanced quantum efficiency of solar cells with self-assembled Ge dots stacked in multiplayer structure", Appl. Phys. Lett., 83, 1258-1260 (2003).
4-33) N. Usami, A. Alguno, T. Ujihara, K. Fujiwara, G. Sazaki, K. Nakajima, K. Sawano, and Y. Shiraki, "Stacked Ge islands for photovoltaic applications", Sci. Tech. Adv. Mat., 4, 367-370 (2003).
4-34) T. Shishido, S. Okada, Y. Ishizawa, K.Kudou, K. Iizumi, Y. Sawada, H. Horiuchi, K. Inaba, T. Sekiguchi, J. Ye, S. Miyashita, A. Nomura, T. Sugawara, K. Obara, K.Fujiwara, T. Ujihara, G. Sazaki, N. Usami, M. Oku, Y. Yokoyama, S. Kohiki, Y. Kawazoe, K. Nakajima, “High temperature solution growth and characterization of chromium disilicide”, Jpn. J. Appl. Phys., 42, 7292-7293 (2003).
4-35) N. Usami, W. Pan, K. Fujiwara, T. Ujihara, G. Sazaki, and K. Nakajima, "Relationship between device performance and grain boundary structural configuration in a solar cell based on multicrystalline SiGe", Jpn. J. Appl. Phys., 43, L250-L252 (2004).
4-36) K. Nakajima, T. Ujihara, N. Usami, K. Fujiwara, G. Sazaki, T. Shishido, "Phase diagram of growth mode for the SiGe/Si heterostructure system with misfit dislocations", J. Crystal Growth, 260, 372-383 (2004).
4-37) K. Fujiwara, Y. Obinata, T. Ujihara, N.Usami, G. Sazaki and K. Nakajima, “In-situ observation of melt growth behavior of polycrystalline silicon”, J. Crystal Growth, 262, 124-129 (2004).  
4-38) K. Kutsukake, N. Usami, K. Fujiwara, T. Ujihara, G. Sazaki, K. Nakajima, B. P. Zhang, and Y. Segawa, "Fabrication of SiGe-on-insulator by rapid thermal annealing of Ge on Si-on-insulator substrate", Appl. Surf. Sci. , 224, 95-98 (2004)
4-39) A. Alguno, N. Usami, T. Ujihara, K. Fujiwara, G. Sazaki, K. Nakajima, K. Sawano, and Y. Shiraki, "Effects of spacer thickness on quantum efficiency of the solar cells with embedded Ge islands in the intrinsic layer", Appl. Phys. Lett., 84, 2802-2804 (2004).
4-40) K.Fujiwara, Y.Obinata, T. Ujihara, N.Usami, G. Sazaki, K.Nakajima, "Grain Growth Behaviours of Polycrystalline Silicon during Melt Growth Processes", J. Crystal Growth, 266, 441-448 (2004).
4-41) N. Usami, A. Alguno, K. Sawano, T. Ujihara, K. Fujiwara, G. Sazaki, Y. Shiraki, and K. Nakajima, "Fabrication of solar cell with stacked Ge islands for enhanced absorption in the infrared regime", Thin Sold Films, 451/452, 604-607 (2004).
4-42) K. Kutsukake, N. Usami, T. Ujihara, K. Fujiwara, G. Sazaki, and K. Nakajima, "On the origin of strain fluctuation in strained-Si grown on SiGe-on-insulator and SiGe virtual substrates", Appl. Phys. Lett., 85, 1335-1337 (2004).
4-43) T. Shishido, S. Okada, Y. Ishizawa, K. Kudou, K. Iizumi, Y. Sawada, H. Horiuchi, K. Inaba, T. Sekiguchi, J. Ye, S. Miyashita, A. Nomura, T. Sugawara, K. Obara, M. Oku, K. Fujiwara, T. Ujihara, G. Sazaki, N. Usami, S. Kohiki, Y. Kawazoe, K. Nakajima, "Molten metal flux growth and properties of CrSi 2 ", J. Alloys Comp., 383, 319-321 (2004).  
4-44) T.Ujihara, K. Obara, N. Usami, K. Fujiwara, G. Sazaki, T. Shishido, K. Nakajima, "Effects of growth temperature on the surface morphology of silicon thin-film on (111) silicon monocrystalline substrate grown by liquid phase epitaxy", J. Crystal Growth, 266, 467-474 (2004).  
4-45) T. Ujihara, S. Munetoh, K. Kusunoki, K. Kamei, N. Usami, K. Fujiwara, G. Sazaki, K. Nakajima, "Crystal quality of a 6H-SiC layer grown over macrodefects by liquid-phase epitaxy: a Raman spectroscopic study", Thin Solid Film, 476, 206-209 (2005).
4-46) G. Watari, N. Usami, Y. Nose, K. Fujiwara, G. Sazaki, and K. Nakajima, "Intermixing of Ge and Si during exposure of GeH4 on Si", Thin Solid Films , 508, 163-165 (2006).
4-47) K. Fujiwara, K. Maeda, N. Usami, G. Sazaki, Y. Nose and K. Nakajima, "Formation mechanism of parallel twins related to Si-facetted dendrite growth", Scripta Materialia , 57, 81-84 (2007).
4-48) K. Fujiwara, K. Maeda, N. Usami, G. Sazaki, Y. Nose, A. Nomura, T. Shishido, K. Nakajima, "In situ observation of Si faceted dendrite growth from low-degree-of-undercooling melts", Acta Mat. , 56 , 2663-2668 (2008).

Reviews; 総説・解説論文
@1) 佐普@元,栗原和男,宮下 哲,小松 啓,中田俊隆,"二光束干渉法によるリゾチーム結晶周囲の濃度場観察",日本結晶成長学会誌23, 413-421 (1996).
2) 中田俊隆,西澤 毅,佐普@元,宮下 哲,小松 啓,"Au電極表面における反応過程の原子間力顕微鏡観察",日本物理学会誌, 52, 114-117 (1997).
@3) 佐普@元,柳谷伸一郎,S.D. Durbin,宮下 哲,中田俊隆,小松 啓,中嶋一雄,本河光博,"強磁場下でのタンパク質の結晶化",構造生物5, 13-25 (1999).
4) 宮下 哲,佐普@元,永利由紀子,鈴木良尚,沢田 勉,中田利隆,小松 啓,中嶋一雄,"リゾチームの結晶化に及ぼす圧力の効果",日本結晶成長学会誌26, 192-202 (1999).
@5) 佐普@元,柳谷伸一郎,S.D. Durbin,宮下 哲,中田俊隆,小松 啓,中嶋一雄,本河光博,"タンパク質の結晶化に及ぼす磁場効果",表面科学, 20, 770-776 (1999).
@6) 佐普@元,佐藤孝雄,松浦良樹,中嶋一雄,"タンパク質の結晶化:磁場による高品質結晶の育成",日本金属学会誌まてりあ41, 481-488 (2002).
7) 宇治原徹,我妻幸長,宇佐美徳隆,佐普@元,藤原航三,宍戸統悦,中嶋一雄,"均一組成SiGeバルク結晶成長と関連する測定技術",日本結晶成長学会誌29, 339-348 (2002).
@8) 佐普@元,中嶋一雄,“タンパク質の結晶化:結晶成長学からの提言”,構造生物8, 34-48 (2003).
9) 鈴木良尚,佐普@元,澤田 勉,宮下 哲,小松 啓,田村勝弘,"高圧力下におけるタンパク質の結晶化",高圧力の科学と技術13, 149-156, (2003).
@10) 佐普@元,柳谷伸一郎,鈴木良尚,宮下 哲,佐藤孝雄,松浦良樹,松井拓郎,中嶋一雄,"タンパク質結晶化への新たなアプローチ:磁場および高圧力の利用",生物物理44, 58-63 (2004) .
11) 中嶋一雄,藤原航三,宇佐美徳隆,藩 伍根,佐普@元,宇治原徹,宍戸統悦,“SiGeバルク結晶と多結晶の成長技術およびそれらのデバイス応用:均一組成のバルク単結晶とミクロ分散的組成分布を有する太陽電池用バルク多結晶”,日本結晶成長学会誌31, 29-37 (2004).
@12) 佐普@元,鈴木良尚,宮下 哲,澤田 勉,小松 啓,田村勝弘,中嶋一雄,“タンパク質の結晶化に及ぼす圧力効果”,日本結晶学会誌,46, 152-158 (2004).   .  
13) K. Nakajima, Y. Nishijima, T. Kusunoki, Y. Azuma, N. Usami, G. Sazaki, K. Fujiwara, T. Ujihara, T. Shishido, “Growth of InGaAs and SiGe homogeneous bulk crystals which have complete miscibility in the phase diagrams”, International Journal of Materials & Product Technology, 22, 185-212 (2005). 
@14) 佐普@元,松井拓郎,塚本勝男,中嶋一雄,"格子欠陥発生機構の解明に向けたタンパク質結晶表面の高分解光学観察",応用物理, 74, 608-612 (2005).   
15) 鈴木良尚,佐普@元,松本雅光,永澤 眞,中嶋一雄,田村勝弘,"圧力印加による酵素の結晶成長の促進 ",食品と容器 , 47, 320-327 (2006).  
16)鈴木良尚,佐普@元,松本雅光,永澤 眞,中嶋一雄,田村勝弘,"高圧力下におけるタンパク質結晶表面の分子ステップのその場観察", 高圧力の科学と技術, 17, 50-56 (2007).
@17) G. Sazaki, "Crystal quality enhancement by magnetic fields", Prog. Biophys. Mol. Biol., 101, 45-55 (2009).
@18) 佐普@元,サルバドール ゼペダ,中坪俊一,古川義純,"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", 光学41, 33-35 (2012).
@19) G. Sazaki, A.E.S. Van Driessche, G. Dai, M. Okada, T. Matsui, F. Otarola, K. Tsukamoto, K. Nakajima, “In situ observation of elementary growth processes of protein crystals by advanced optical microscopy”, Protein & Peptide Letters, 19, 743-760 (2012).
20) 杉山 茂,松村浩由,丸山美帆子,佐普@元,廣瀬未果,安達宏昭,高野和文,村上 聡,井上 豪,森 勇介,「固相ハイドロゲル中でのタンパク質結晶化」,日本結晶学会誌, 54, 300-303 (2012).
@21) 佐普@元,サルバドール ゼペダ,中坪俊一,古川義純,"氷結晶の表面融解過程の光学その場観察", 応用物理82, 150-153 (2013).
@22) 佐普@元,サルバドール ゼペダ,中坪俊一,古川義純,"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", 低温科学71, 1-13 (2013).
23) 丸山美帆子,中村真利子,佐普@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,「溶液流れ下におけるタンパク質の結晶成長」, 日本結晶成長学会誌40, 72-82 (2013).
@24) 佐普@元,岡田雅史,Guoliang Dai,松井拓郎,塚本勝男,中嶋一雄,「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」,日本結晶成長学会誌40, 83-90 (2013).
25) 鈴木良尚,佐普@元,藤原貴久,塚本雅之,「圧力を使ったタンパク質の結晶成長の研究」,日本結晶成長学会誌,40, 107-114 (2013).
@26) 佐普@元,サルバドール ゼペダ,中坪俊一,古川義純,"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", 日本食品科学工学会誌, 60, 445-449 (2013).
@27) 佐普@元,麻川明俊,長嶋 剣,中坪俊一,古川義純,"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",Int. J. Microgravity Sci. Appl., 31, 100-105 (2014).
@28) G. Sazaki, K. Nagashima, K. Murata, Y. Furukawa, "In-situ observation of crystal surfaces by optical miscroscopy", Progress in Crystal Growth and Characterization of Materials, 62 (2), 408-412 (20160603). Doi:10.1016/j.pcrysgrow.2016.04.24
@29) 佐普@元,"ゼロ度以下の温度でも濡れている氷の表面", 化学と教育, 64 (8), 396-399 (20160820).
30) 村田憲一郎,佐普@元,"氷の表面はなぜ濡れるのか?", 日本物理学会誌, 72 (9), 669-674 (20170905).

Books; 著書
1) H. Komatsu, S. Miyashita, T. Nakada, G. Sazaki, and A.A. Chernov, "An atomic level analysis of crystal growth mechanism in complex systems by means of nano-optical microscopy and AFM", T. Nishinaga (ed.), Advances in crystal growth mechanisms, pp515-529 (Elsevier, Amsterdam, 1997).
@2) G. Sazaki, S. Yanagiya, S.D. Durbin, S. Miyashita, T. Nakada, H. Komatsu, T. Ujihara, K. Nakajima, K. Watanabe, M. Motokawa, "Effects of a magnetic field on the crystallization of protein", K. Watanabe and M. Motokawa (Eds.), Materials Science in Static High Magnetic Fields (Advances in Materials Research series), pp283-300 (Springer, Berlin, 2002).
3) Y. Suzuki, T. Sawada, S. Miyashita, G. Sazaki, T. Nakada, H. Komatsu, T. Arao, K. Tamura, "In situ measurements of the solubility of protein crystals under high pressure", Progress in Biotechnology Vol. 19: Trends in High Pressure Bioscience and Biotechnology,pp.117-122,Jan. 2002
4) Y. Suzuki, S. Miyashita, T. Sawada, G. Sazaki, T. Nakada, H. Komatsu, T. Arao, K. Tamura, "Effects of pressure on growth kinetics of protein crystals", Progress in Biotechnology Vol. 19: Trends in High Pressure Bioscience and Biotechnology,pp.123-130,Jan. 2002
@5) 佐普@元,"第4章1節 タンパク質結晶の成長原理と戦略設定",佐藤清隆 (ed.),結晶成長のダイナミクス; 第6巻 溶液からの結晶成長; 構造と形のデザイン, pp.141-155 (共立出版,東京, 2002).
@6) 佐普@元,”第5章2.2節 タンパク質(結晶成長)”,北澤宏一 (ed.),磁気科学の新展開,pp.166-184 (アイピーシー,東京,2002).
@7) 佐普@元,“第11章2節 磁場中で結晶をつくる”, 坂部知平,相原茂夫 (eds.) ,タンパク質の結晶化,pp.328-338(京都大学学術出版会,京都,2005 ).
@8) 佐普@元,“第12章2節 タンパク質結晶の光学顕微鏡を用いた表面観察”, 坂部知平,相原茂夫 (eds.) ,タンパク質の結晶化,pp.352-357(京都大学学術出版会,京都,2005).
9) 鈴木良尚,佐普@元,松本雅光,永澤 眞,中嶋一雄,田村勝弘, "第 8 章 タンパク質結晶表面のステップ前進速度に及ぼす圧力効果",金品昌志、田村勝弘、林力丸 (eds.) ,高圧力下の生物科学,pp.63-70 (さんえい出版,東京, 2006 ).
@10) 佐普@元,中嶋一雄,"第 2 部第 1 章第 4 節 有機半導体薄膜の核形成・成長に及ぼすビシナルステップの効果",有機エレクトロニクスの展開:最新開発状況と実用化への課題,pp.184-195(株式会社情報機構,東京,2007).
@11) 佐普@元,“第 II 編第5章2節 圧力”,高野和文 (ed.) ,タンパク質結晶の新展開:新しい育成技術から構造解析・応用研究へ, pp.89-96 (シーエムシー出版,東京, 2008 ) .
@12) 佐普@元,“第 II 編第8章 成長観察・評価”,高野和文 (ed.) ,タンパク質結晶の新展開:新しい育成技術から構造解析・応用研究へ, pp.142-154 (シーエムシー出版,東京, 2008 ) .
@13) Y. Furukawa, G. Sazaki, T. Uchida, N. Watanabe (Eds.), “Phsyics and Chemistry of Ice 2010” (Hokkaido University Press, Sapporo, 2011).
14) Y. Furukawa, G. Sazaki, H. Nada, “Chapter 17 Surface of Ice”, K. Wandelt (Ed.), Surface and Interface Science, pp. 305-348 (WILEY-VCH Verlag & Co. KGaA, Wenheim, Germany, 2014).
15) 佐普@元,古川義純,長嶋 剣,村田憲一郎,“第2章 氷および雪の結晶成長”,北海道大学低温科学研究所(ed.),低温科学便覧, pp. 11-49(丸善出版株式会社,東京, 2015.10.30).
16) G. Sazaki, H. Nada, S. Naritsuka (Ed.), Special issue: Recent Progress on Fundamentals and Applications of Crystal Growth; Proceedings of the 16th International Summer School on Crystal Growth (ISSCG-16), Progress in Crystal Growth and Characterization of Materials, 62 (2), 41-416 (201606).
17) 佐普@元,“第11-2項 氷Ihの相転移と自然現象”,川村公隆,大島慶一郎,小達恒夫,川村賢二,佐普@元,杉山 慎,関 宰,宮風Y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(編集),低温環境の科学事典,pp.360 (朝倉書店,東京,201606).
18) 佐普@元,“第11-7項 表面融解”,川村公隆,大島慶一郎,小達恒夫,川村賢二,佐普@元,杉山 慎,関 宰,宮風Y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(編集),低温環境の科学事典,pp.368-369 (朝倉書店,東京,201606).
19) 川村公隆,大島慶一郎,小達恒夫,川村賢二,佐普@元,杉山 慎,関 宰,宮風Y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(編集),低温環境の科学事典,pp.1-411 (朝倉書店,東京,201606).

Others (not refereed); その他(非審査印刷物)
1) 佐普@元, "第7回生体高分子結晶化国際会議(ICCBM-7)に参加して", 日本結晶成長学会誌, 25, 175-177 1998.
2) 佐普@元,"新刊紹介:有機結晶作製ハンドブック,平山令明 編著,丸善株式会社",日本結晶成長学会誌27, 144 (2000).
3) 佐普@元,柳谷伸一郎,S.D. Durbin,宮下 哲,宇治原徹,宇佐美徳隆,中嶋一雄,本河光博,"強磁場下でのタンパク質の結晶成長",バウンダリー16 (No.9), 32-33 (2000).
4) 佐普@元,宮下 哲,野倉正樹,宇治原徹,宇佐美徳隆,中嶋一雄,"微小重力下での水溶液中のマランゴニ対流のその場観察:タンパク質の結晶化に及ぼす影響について",バウンダリー17 (No. 8), 17-19 (2001).
5) 佐普@元,“タンパク質の結晶成長に及ぼす外場効果:今後10年間の夢”,日本マイクログラビティ応用学会誌21, 110-111 (2004).
6) 佐普@元, "バイオクリスタリゼーション:この10年間の進展",日本結晶成長学会誌31, 431-432 (2004).  
7) 佐普@元,中嶋一雄,"高分解光学系を用いたタンパク質結晶成長素過程のその場観察",日本電子材料技術協会会報,37, 17-20 (2006).

Patents; 特許
1)   発明の名称:水素生成光デバイス 
  出願者:中嶋一雄,宇佐美徳隆,佐普@元,宇治原徹
  特許コード: P03A003213
  出願番号:特願 2002-040388 (出願日: 2002 年 2 月 18 日)
  公開番号:特開 2003-238104 (公開日: 2003 年 8 月 27 日)
  出願国:日本
2) 発明の名称:有機半導体薄膜のエピタキシャル成長
   出願者:中嶋一雄、佐普@元
  出願番号:特願 2003-311715 (出願日: 2003 年 9 月 3 日)
  公開番号:特開 2005-79535A (公開日: 2005 年 3 月 24 日)
  出願国:日本
3) 発明の名称:光学顕微鏡と光学的観察方法
   出願者:小林 茂、斎藤良治、佐普@元
  出願番号:特願 2005-86550 (出願日: 2005 年 3 月 24 日)
  公開番号:特開 2005-309415 (公開日: 2005 年 11 月 4 日)
  出願国:日本

Newspapers; 新聞発表など
1) 化学工業日報,1998年1月28日,第1面,「強磁場で結晶配向制御」
2) 化学工業日報,2000年3月8日,第1面,「タンパク質結晶,磁場で高品質化」
3) 読売新聞,2000年10月2日,夕刊第5面,「立体構造を超電導磁石で細かく分析」
4) 朝日新聞(北海道版),2009年5月15日,朝刊第26面,学び場「宇宙を身近に感じて:北海道大学「無重力の科学」(受講生23人)」
5) 科学新聞,2009年11月6日,第5面,「結晶成長学会賞受賞について」
6) 北海道大学-科学技術振興機構プレスリリース, 2010年10月26日,「氷結晶表面の素顔に迫る:単位ステップの運動の直接観察」,佐普@元
7) 北海道新聞,2010年10月26日,第31面,「氷結晶の成長分子レベルで:北大低温研観察初めて成功」
8) 北海道テレビ,2010年10月28日,午後6:30のニュースで放映「氷の結晶:分子レベルで見ると」
9) 日経サイエンス,2011年1月1日,p. 18-19,「氷の成長を分子レベルで観察」
10) The JR Hokkaido (JR北海道車内誌),2011年1月1日,p. 10,「世界初 分子層の動きを見る」
11) 北海道大学-科学技術振興機構プレスリリース, 2012年1月10日,「氷の新しい融け方を発見:2種類の異なる表面液体層の生成」,佐普@元
12) 日本経済新聞,2012年1月10日,第30面,「解ける氷,2種類の液体に」
13) 北海道新聞,2012年1月10日,第2面,「氷解ける際,水の層2種類」
14) 河北新報,2012年1月10日,第3面,「解ける氷分子を観察」
15) 日刊工業新聞,2012年1月10日,第14面,「氷の新しい解け方発見」
16) 日経産業新聞,2012年1月10日,第10面,「2つの水,氷溶ける際発生」
17) 毎日新聞,2012年1月15日,第30面,「氷表面の水は2種類」
18) 読売新聞,2012年1月27日,第13面,「解氷の不思議 鮮明に」
19) 科学新聞,2012年1月27日,第4面,「氷の新しい解け方発見」
20) しんぶん赤旗,2012年1月30日,第14面,「氷の解け方は2段階」
21) 化学, 67 (3), 74-75 (2012),「氷の新しい融け方を発見!」
22) JST News, 2012年3月号,第4面,「原子・分子高さの段差を可視化できる光学顕微鏡を用いて氷の結晶表面の新しい融け方を発見!」
23) 毎日新聞,2012年4月17日,第20面,「高速リンク開発 食品保存に一役」
24) 朝日新聞,2012年9月15日,第28面,「2層で溶ける氷の膜発見」
25) 朝日新聞北海道版, 2014年1月1日,第3面,「宇宙で咲く雪の結晶」
26) 北海道大学プレスリリース, 2015年12月18日,「氷の表面を濡らす水膜は普通の水より流れにくい」,村田憲一郎
27) 北海道大学プレスリリース, 2016年2月2日,「氷表面での水膜のでき方を解明」,麻川明俊,佐崎 元
28) NHKテレビ(北海道版), 2016年2月3日, 18:00および20:45のニュースで放映「雪のメカニズム 北大が解明へ」
29) 北海道新聞,2016年2月4日,第2面,「雪の結晶謎に迫る:北大低温研 東川で野外観察」
30) 科学技術振興機構サイエンスポータル,2016年2月10日,「氷点下の氷表面水膜の謎を解明:北大が光学顕微鏡で」
(http://scienceportal.jst.go.jp/news/newsflash_review/newsflash/2016/02/20160210_01.html)
31) マイナビニュース, 2016年2月10日,「氷点下の氷表面水膜の謎を解明 北大が光学顕微鏡で」
32) NHKテレビ(北海道版), 2016年2月14日, 18:45および20:55のニュースで放映「空気中の水蒸気で氷表面に水の膜」
33) 北海道大学プレスリリース, 2016年10月19日,「氷の表面はなぜ濡れる? 氷にまつわる永年の謎を解明」,村田憲一郎
34) マイナビニュース, 2016年10月19日,「北大、長年の謎となっていた氷の表面融解のメカニズムを解明」
35) Biglobeニュース,2016年10月19日,「北大、長年の謎となっていた氷の表面融解のメカニズムを解明」
36) PC Watch, 2016年10月19日,「氷の表面は氷点下でもなぜ濡れている?150年間の謎が解明」
37) 北海道新聞,2016年12月17日,夕刊,第2面,「道新中高生新聞:北の事始め,21 製氷,五稜郭外堀で採氷成功」
38) 道新こども新聞 週刊まなぶん,2017年2月4日,第4-5面,「雪:美しく不思議な世界」
39) 北海道大学プレスリリース, 2017年3月7日,「国際宇宙ステーションにおいて氷の結晶成長実験に成功:流氷の海に住む魚はなぜ凍死しないのか!?」,古川義純
40) 北海道新聞,2017年3月7日,朝刊,第?面,「流氷家でも凍らぬ魚 タンパク質作用解明 北大など宇宙実験で」

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