研究業績


2023年

<原著論文>

・” A Method of Immobilizing Colloids in Polymer Gels Used in the"Colloidal Clusters" Space Experiment Project
Honoka KOMAZAWA, Teruyoshi ISHIGAMI, Hiroyuki MIKI, Akiko TOYOTAMA, Tohru OKUZONO, Junpei YAMANAKA
Int J. Microgravity Sci. Appl. 40 (2023) 400.

・” Clustering of charged colloidal particles in the microgravity environment of space
Hiroyuki Miki, Teruyoshi Ishigami, Junpei Yamanaka, Tohru Okuzono, Akiko Toyotama, Jitendra Mata, Honoka Komazawa,
Yushi Takeda, Madoka Minami, Minori Fujita, Maho Doi, Tsunehiko Higuchi, Hiroshi Takase, Satoshi Adachi, Tetsuya Sakashita,
Taro Shimaoka, Masae Nagai, Yuki Watanabe & Seijiro Fukuyama
npj Microgravity 9 (2023) 33.

・” Polymerized stimuli-responsive microgels for the removal of organic dye from water
Biswajit Pany, Amrito Ghosh Majundar, Madhuchhanda Mohanty, K.P. Fyis, Tanima Dey, Gautam Tripathy, Suresh Bhat,
Junpei Yamanaka, & Priti S. Mohanty
J. Mol. Liquids 375 (2023) 121267.

2022年

<原著論文>

・” Surface Plasmon Resonance of Two-dimensional Gold Colloidal Crystals Formed on Gold Plates
Y. Aoyama, A. Toyotama, T. Okuzono, N. Hirashima, H. Imai, F. Uchida, Y. Takiguchi, and J. Yamanaka
Chem. Pharm. Bull. 70, 130-137 (2022).
[Editors Choice]

・” Particle Adsorption on Polymer Gel Surface Driven by van der Waals Attraction
Y. Aoyama, N. Sato, A. Toyotama, T. Okuzono, and J. Yamanaka
Bull. Chem. Soc. Jpn. 95, 314-324 (2022).

・” Heteroepitaxial Fabrication of Binary Colloidal Crystals by a Balance of Interparticle Interaction and Lattice spacing
J. Nozawa, S. Uda, A. Toyotama, J. Yamanaka, H. Niinomi, and J. Okada
J. Colloid Interf. Sci. 608, 873-881(2022).

<著書>

・” 「高分子微粒子の最新技術動向」
監修 川口正剛
シーエムシー出版、2022年7月1日
第9章 コロイド微粒子の会合体形成 山中淳平、奥薗透、豊玉彰子

2021年

<原著論文>

・” Crystallization of charged gold particles due to depletion attraction in the coexistence of like-charged polyelectrolyte
M. Ioka, A. Toyotama, M. Yamaguchi, J. Nozawa, S. Uda, T. Okuzono, M. Yoshimura, and J. Yamanaka
J. Chem. Phys., 154, 234901(2021).

・” オーロラ色を呈する安定な液状化粧品の開発
坂西裕一,福田 瞳,佐藤 結,豊玉彰子,山中淳平
日本化粧品技術者会誌 55, 371-378(2021).

<総説等>

・”3次元および2次元コロイド結晶の構築”
山中淳平, 三木裕之, 藤田みのり, 青山柚里奈, 豊玉彰子, 奥薗透, 武田真一
粉体工学会誌 58 巻 4 号 pp. 193-198(2021)

<著書>

・” 「分散系のレオロジー ー基礎・評価・制御、応用ー」
監修 鈴木洋
エヌ・ティー・エス出版、2021年8月
第1章3節 コロイド粒子間の相互作用 山中淳平、奥薗透、豊玉彰子

2020年

<原著論文>

・” Effects of solution flow on the growth of colloidal crystals
J. Nozawa, S. Uda, S. Guo, A. Toyotama, J. Yamanaka, H. Niinomi, J. Okada
Langmuir, 36, 4324−4331(2020)

・” Growth and One-Dimensional Heteroepitaxy of Binary Colloidal Crystals
J. Nozawa, S. Uda, A. Toyotama, J. Yamanaka, H. Niinomi, J. Okada
Crystal Growth & Design, 20, 3247-3256(2020)

・” Self-Assembled Structures of Colloids
J. Yamanaka, T. Okuzono, A. Toyotama
Acc. Mater. Surf. Res., Vol.5 No.3

<総説>

・”コロイド微粒子の構造形成”
青山柚里奈、豊玉彰子、奥薗透、山中淳平
化学と教育、vol 68, pp. 84-87(2020)

・”コロイド系の不純物排除”
豊玉彰子
結晶成長学会誌, vol. 47, pp.1(2020)

・”コロイド結晶の構造制御と新規波長選択光学材料の創製”
豊玉彰子
化学工業, vol.71, pp.155(2020)

<著書>

・” 「コロイド結晶の形成とその応用」
監修 中村浩、山中淳平
シーエムシー出版、2020年5月29日
第1章1節 荷電コロイド系の結晶化 山中淳平、豊玉彰子
第1章2節 一方向成長による大型荷電コロイド単結晶の作成 山中淳平
第1章5節 荷電粒子によるコロイド結晶形成シミュレーション 奥薗透
第2章1節 枯渇引力により生成するコロイド結晶 豊玉彰子、山中淳平
第2章3節 枯渇引力によるコロイド結晶形成・凝集体成長シミュレーション 奥薗透

2019年

<原著論文>

・” Two-Dimensional Nonclose-Packed Colloidal Crystals by the Electrostatic Adsorption of Three-Dimensional Charged Colloidal Crystals
Y. Aoyama, A. Toyotama, T. Okuzono, and J. Yamanaka
Langmuir, 2019, 35 (28), pp 9194–9201

・” Mechanism of Diffusiophoresis with Chemical Reaction on a Colloidal Particle
T. Seki, T. Okuzono, A. Toyotama, and J. Yamanaka
Phys. Rev. E, 2019, 99 (1), 012608

・” Effect of Substrate on Nucleation Rate of Two-Dimensional Colloidal Crystals
S. Guo, J. Nozawa, M. Mizukami, K. Kurihara, A. Toyotama, J. Yamanaka, H. Niinomi, J. Okada, S. Uda
Crystal Growth & Design, 19, 3215-3221(2019)

・” Crystallization of Microgel Colloids Due to Depletion Attraction
Y. Sato, A. Toyotama, T. Okuzono, J. Yamanaka
Chem. Lett., 48,1319-1321(2019)

<総説>

・”コロイド微粒子の自己集合による構造形成”
山中淳平、奥薗透、豊玉彰子
Pharmatech Japan, 35,(2019)

2018年

<原著論文>

・” Kink Distance and Binding Energy of Colloidal Crystals
J. Nozawa, S. Uda, S. Guo, A. Toyotama, J. Yamanaka, N. Ihara, and J. Okada
Cryst. Growth Des., 2018, 18 (10), 6078-6083

・” Crystallization of Charged Colloids under Microgravity during Aircraft Parabolic Flights
Y. Tomita, T. Seki, N. Fukaya, S. Nishikawa, N. Sato, M. Imai, M. Suko, M. Takaki, Y. Aoyama, A. Toyotama, T. Okuzono, J. Yamanaka,
K. Tsukamoto, and Y. Inatomi
Int. J. Microgravity Sci. Appl., 35 (3) (2018) 350303

・” Step Kinetics Dependent on the Kink Generation Mechanism in Colloidal Crystal Growth
J. Nozawa, S. Uda, S. Guo, A. Toyotama, J. Yamanaka, J. Okada, H. Koizumi
Cryst. Growth Des., 2018, 18 (5), 2948-2955.

・” 5-hydroxy-2-methylpyridine isolated from cigarette smoke condensate aggravates collagen-induced arthritis in mice
M.Takeno, S. Kitagawa, J. Yamanaka, M. Teramoto, H. Tomita, N. Shirai, S. Itoh, S. Hida, K. Hayakawa, K. Onozaki, T. Takii
Bio. Pharm. Bull., 2018, 41 (6), 877-884

2017年

<原著論文>

・”コロイド結晶における 2 次元核形成過程”
野澤純,郭素霞,胡素梦,豊玉彰子, 山中淳平, 小泉晴比古,岡田純平,宇田聡
日本結晶成長学会誌, 44(2), 96-102 (2017).

・” Particle Adsorption on Hydrogel Surfaces in Aqueous Media due to van der Waals Attraction.
N. Sato, Y. Aoyama, J. Yamanaka, A. Toyotama, T. Okuzono
Sci.Rep. 2017; 7: 6099.

・” Colloidal Crystals with Low Crack Densities Formed on Polymer Hydrogel Surfaces.
N. Sato, J. Yamanaka, A. Toyotama, T. Okuzono
Chem. Lett. 2017, 46. 828

・” Two-Dimensional Nucleation on the Terrace of Colloidal Crystals with Added Polymers.
J. Nozawa, S. Uda, G. Suxia, S. Hu, A. Toyotama, J. Yamanaka, J. Okada, and H. Koizumi
Langmuir, 2017, 33 (13), pp 3262–3269


2016年

<原著論文>

・” Spontaneous Formation of Eutectic Crystal Structures in Binary and Ternary Charged Colloids due to Depletion Attraction.”
A. Toyotama, T. Okuzono, and J. Yamanaka
Sci Rep. 2016; 6: 23292.

・” Numerical study of cluster formation in binary charged colloids.
T. Okuzono, K. Odai, T. Masuda, and J. Yamanaka
Physical Review E 94.1 (2016): 012609.

・” Adsorption, Desorption, Surface Diffusion, Lattice Defect Formation, and Kink Incorporation Processes of Particles on Growth Interfaces of Colloidal Crystals with Attractive Interactions.
Y. Suzuki, Y. Hattori, J. Nozawa, S. Uda, A. Toyotama, and J. Yamanaka
Crystals 6.7 (2016): 80.

・” 枯渇引力による荷電コロイドの共晶形成(特集 メソサイズ粒子結晶の不完全性).
豊玉彰子, 松野宏美, 小森和紀, 奥薗透, 山中淳平
日本結晶成長学会誌 Journal of the Japanese Association for Crystal Growth 43.2 (2016): 71-77.

・” Thermoreversible crystallization of charged colloids due to adsorption/desorption of ionic surfactants.
A. Murakado, A. Toyotama, M. Yamamoto, R. Nagano, T. Okuzono, and J. Yamanaka
Journal of colloid and interface science 465 (2016): 200-207.

・” Gelled colloidal crystals as tunable optical filters for spectrophotometers.
Y. Sugao, S. Onda, A. Toyotama, Y. Takiguchi, T. Sawada, S. Hara, S. Nishikawa, and J. Yamanaka
Japanese Journal of Applied Physics 55.8 (2016): 087301.

・” In-situ observation of colloidal crystallization.
J. Yamanaka, Y. Suzuki, J. Nozawa, and T. Sawada
Progress in Crystal Growth and Characterization of Materials 62.2 (2016): 413-416.

<総説等>

・” 枯渇引力による多成分荷電コロイドの共晶形成
豊玉彰子
Colloid and Interface Communication 41, 3(2016): 29

・” 微粒子の自己集合による複雑構造の形成-多成分コロイドのクラスターと共晶構造
山中淳平, 奥薗透, 豊玉彰子
化学 71, 10 (2016): 66

・” 顕微鏡泳動法によるコロイド会合体の荷電解析
富田友紀, 豊玉彰子, 奥薗透, 山中淳平
材料表面の親水・疎水の評価と制御設計 (2016): 第2章第9節

・” コロイド微小重力実験の展望
山中淳平, 富田友紀, 岡地真奈美, 豊玉彰子, 奥薗透
Proceedings of The Thirtieth Space Utilization Symposium 宇宙環境利用シンポジウム 第 30 回: 平成 27 年度 Space Utilization Research 30 (2016).

2015年

<原著論文>

・” Controlled Clustering in Binary Charged Colloids by Adsorption of Ionic Surfactants.”
Y. Nakamura, M. Okachi, A. Toyotama, T. Okuzono and J. Yamanaka
Langmuir, 2015, 31 (49), pp 13303–13311

・” Dynamics of polyelectrolyte solutions under a constant gradient of base concentration.
T. Okuzono, T. Seki, A. Toyotama and J. Yamanaka
Phys. Rev. E 92, 022606 – Published 31 August 2015

・” Structural Characterizations of Charged Colloidal Crystals.”
C. Kakihara, A. Toyotama, T. Okuzono, J. Yamanaka, K. Ito, T. Shinohara, M. Tanigawa and I. Sogami
Int. J. Microgravity Sci. Appl 32.2 (2015): 320205.

<特許>

・”Acrylic resin composition, method of manufacturing the same, and architectural material, fashion accessory, and optical material formed using the same”
J. Yamanaka, A. Toyotama, F. Uchida, S. Kawanaka

・”Process for producing colloidal crystal and colloidal crystal”
J. Yamanaka, M. Shinohara, A. Toyotama, K. Yoshizawa, S. Onda, M. Yonese, F. Uchida

2014年

<原著論文>

・ “ Thermoresponsive Colloidal Crystallization Using Adsorption of Ionic Surfactants.
A. Toyotama, M. Yamamoto, Y. Nakamura, C.Yamasaki, A. Tobinaga, Y. Ohashi, T. Okuzono, H. Ozaki, F. Uchida and J. Yamanaka
Chemistry of Materials, 26, 2014, 4057-4059.

・ “ Exclusion of Impurity Particles in Charged Colloidal Crystals.”
K. Yoshizawa, A. Toyotama, T. Okuzono and J. Yamanaka
Soft Matter, 10, 2014, x3357-3361.

2013年

<原著論文>

・“ Impurity Partitioning During Colloidal Crystallization.”
J. Nozawa, S. Uda, Y. Naradate, H. Koizumi, K. Fujiwara, A. Toyotama, J. Yamanaka
J. Phys. Chem. B, 117, 5289–5295(2013).

・“ Recrystallization and Zone Melting of Charged Colloids by Thermally Induced Crystallization.
M. Shinohara, A. Toyotama, M. Suzuki, Y. Sugao, T. Okuzono, F. Uchida, and J. Yamanaka
Langmuir, 29 ,9668–9676(2013).

<著書>

・J. Yamanaka, T. Okuzono, and A. Toyotama, “Colloidal Crystals", in Pattern Formation,
S. Kinoshita Ed., Elsevier, (2013).

2012年

<原著論文>

・ “Phase Transition in Binary Colloids with Charge Asymmetry.”
K. Yoshizawa, N. Wakabayashi, M. Yonese, J. Yamanaka and C. P. Royall
Soft Matter, 8, 2012, 11732-11736.

・“Gravitational compression dynamics of charged colloidal crystals.”
M. Murai, T. Okuzono, M. Yamamoto, A. Toyotama, and J. Yamanaka
J. Colloid Interf. Sci. 370, 39-45(2012).

・“ Two-dimensional Brownian Motions of Polyacrylamide-modified Colloidal Particles.
Y. Nakamura, T. Okuzono, A. Toyotama, and J. Yamanaka
Chem. Lett. 41, 1145-1147(2012).

・“ Striation Pattern of Impurity Particle in Charged Colloidal Crystals Formed by Stepwise Thermally Induced Crystallization.
Y. Sugao, K. Yoshizawa, A. Toyotama, T. Okuzono, and J. Yamanaka
Chem. Lett. 41, 1163-1165(2012).

2011年

<原著論文>

・ “Uphill Diffusion of Charged Colloidal Particles During the Unidirectional Crystallization Process Under pH Gradient.”
M. Murai, M. Fujioka, A. Toyotama, M. Yonese, and J. Yamanaka
Chem. Lett. 40, 42-43(2011).

・“ Heating-Induced Freezing and Melting Transitions in Charged Colloids.
A. Toyotama, and J. Yamanaka
Langmuir, 27, 1569-1572(2011).

・“pH- and Temperature-induced Crystallization of Aqueous Dispersions of Positively Charged Poly(styrene-co-2-vinylpyridine) Particles.”
R. Nagano, A. Toyotama, and J. Yamanaka
Chem. Lett. 40, 1366-1367(2011).

2010年

<原著論文>

2009年

<原著論文>

・ “ Gel immobilization of centimeter-size and uniform colloidal crystals formed under temperature gradient.
A. Toyotama, J. Yamanaka, M.Shinohara, S. Onda, M. Yonese, T. Sawada, and F. Uchida
Langmuir, 25, 2009, 589-593.

<総説>

・"荷電コロイドの結晶化"
山中淳平, 豊玉彰子
日本結晶成長学会誌(7月号掲載予定)

2008年

<原著論文>

・ “Structural characterization of charged colloidal silica crystals formed by base diffusion.”
H.Yamada, T.Sawada, J. Yamanaka, M.Yonese, and F.Uchida
Chem. Lett., 37, 2008, 172-173.

・ “ Unidirectional crystallization if charged colloidal silica under temperature gradient.
A. Toyotama, J. Yamanaka, M. Yonese, T. Sawada, and F. Uchida,
J. Jpn. Soc. Microgravity Appl., 25, 2008, 479-482

<総説>

・ “3次元フォトニック結晶(3DPC)生成宇宙実験におけるコロイド結晶成長法”
山中淳平
日本マイクログラビティ応用学会誌, 25, 2008, 147-151.

<著書>

・「ナノ粒子の創製と応用展開」
山中淳平
コロイド結晶とその光学材料への応用, pp. 132-139.
米澤 徹 編, フロンティア出版, 東京, 2008.

2007年

<原著論文>

・ “ Thermally driven unidirectional crystallization of charged colloidal silica.
A. Toyotama, J. Yamanaka, M. Yonese, T. Sawada, and F. Uchida
J. Am. Chem.Soc., 129, 2007, 3044-3045.

・“溶媒置換によるゲル固定薄膜型結晶の回折波長チューニング”
豊玉彰子、澤田 勉、山中淳平、北村健二
高分子論文集, 64, 2007, 41-44

・ ” Tuning the effective width of the optical stop bank in colloidal photonic crystals.
T. Kanai, T. Sawada, A. Toyotama, J. Yamanaka, and K. Kitamura
Langmuir, 23, 2007, 3503-3505.

・ “ Unidirectional crystallization of charged colloidal silica due to diffusion of base.
M. Murai, H.Yamada, J. Yamanaka, S.Onda, M.Yonese, K.Ito, T.Sawada, F.Uchida, and Y. Ohki
Langmuir, 23, 2007, 7510-7517.

・ “Effects of denaturation and association of collagen on adsorption behavior: two-dimensional nanostructure and its property.”
S. Xu, J. Yamanaka, I. Miyata, and M. Yonese
Colloid and Polymer Science, 285, 2007, 899-906.

"Fabrication of single-domain colloidal crystal gel films and their tuning characteristics"
T. Sawada, T. Kanai, and A. Toyotama
Proceedings of SPIE-The international Society for Optical Engineering (2007), 6767

2006年

<原著論文>

・ “ Optical detection of nonequilibrium swelling behavior of a polymer gel upon solvent substitution.
A. Toyotama, T. Sawada, J.Yamanaka, and K.Kitamura
Langmuir, 22, 2006, 1952-1954.

・ “Three-dimensional structure of a polymer/clay nanocomposite characterized by transmission electron microtomography.”
H. Nishioka, K.Niihara, T.Kaneko, J.Yamanaka, T.Inoue, T.Nishi, and H.Jinnai
Composite Interfaces, 13, 2006, 589-603.

・ “ Three-Dimensional centimeter-sized colloidal silica crystals formed by addition of base.
N. Wakabayashi, J.Yamanaka, M.Murai, K.Ito, T.Sawada, and M.Yonese
Langmuir, 22, 2006, 7936-7941.

<総説>

・ “荷電コロイドの結晶化制御とその固定化”
山中淳平, 豊玉彰子
未来材料, 6, 2006, 34-39.

・ “コロイド分散液における非最密充填型の結晶形成”
山中淳平
セラミックス, 41, 2006, 367-371.

2005年

<原著論文>

・ ”Air-Pulse-Drive Fabrication of Photonic Crystal Films of Colloids with High Spectral Quality”
T. Kanai, T. Sawada, A. Toyotama, and K. Kitamura
Adv. Funct. Mater., 15, 25-29, 2005.

・ ” Gas-Solid Coexistence in highly Charged Colloidal Suspensions.
P.S. Mohanty, B. V. R. Tata, A. Toyotama and T. Sawada, Gas-Solid Coexistence in highly Charged Colloidal Suspensions.
Langmuir, 21(25), 11678-11683, 2005.

・ “Surface structures of adsorption layers of sodium hyaluronate and bovine serum albumin complexes on poly(methyl-glutamate) film and their surface properties.”
S .Xu, Y. Song, S. Sato, I. Miyata, J. Yamanaka, and M. Yonese
Colloid Polym. Sci., 283, 2005, 383-392

・ ” Critical concentration for colloidal crystallization determined with microliter centrifuged suspensions.
T.Kanai, T. Sawada, J. Yamanaka, and K. Kitamura
Langmuir, 21, 2005, 7633-7637.

・ ” Gelation of colloidal crystals without degradation in their transmission quality and chemical tuning.”
A. Toyotama, T. Kanai, T. Sawada, J. Yamanaka, K. Ito, and K. Kitamura
Langmuir, 21, 2005, 10268-10270.

2004年

<原著論文>

・ “Particle size dependence for effective charge number of ionic colloids.”
J.Yamanaka, S. Hibi, S.Ikeda, and M.Yonese
Mol. Simulations, 30, 2004, 149-152.

・ “Dynamic ight scattering studies in silica/ethylene glycol charged colloidal system.”
B.V.R. Tata, P.S. Mohanty, J.Yamanaka, and T. Kawakami
Mol. Simulations, 30, 2004, 153-158.

・ “One-directional crystal growth in charged colloidal silica dispersions driven by diffusion of base.”
J.Yamanaka, M.Murai, Y.Iwayama, M.Yonese, K.Ito, and T.Sawada
J. Am. Chem. Soc., 126, 2004, 7156-7157

・ “Equilibrium characteristic at order-disorder phase boundary in centrifuged nonequilibrium colloidal-crystal system .”
T.Kanai, T.Sawada, J.Yamanaka, and K.Kitamura
J. Am. Chem. Soc., 126, 2004, 13210-13211.

・ “Long-wavelength transverse modes in charged colloidal crystals.”
B.V.R.Tata, P.S.Mohanty, M.C.Valsakumar, and J.Yamanaka
Phys. Rev. Lett., 93, 2004, 268303-268306.

・ “Two-dimensional auto-organized nanostructure of sodium hyaluronate and its frictional properties.”
S. Xu, J.Yamanaka, S.Sato, I.Miyata, and M.Yonese
Colloid Polym. Sci., 282, 2004, 440-445.

<総説>

・ “塩基の拡散による荷電コロイド結晶の一方向成長”
山中淳平、村井雅子、岩山由美江、米勢政勝
高分子加工, 53, 2004, 18 - 23.

・ “電荷誘起相分離を用いた荷電コロイド粒子の精密分級”
山中淳平
ホソカワ粉体工学振興財団年報, 12, 2004, 65-71.

2003年

<原著論文>

・” Optically tunable gelled photonic crystal covering almost the entire visible light wavelength region.
Y. Iwayama, J. Yamanaka, Y. Takiguchi, M. Takasaka, K. Ito, T. Shinohara, T. Sawada, and M. Yonese
Langmuir, 19, 2003, 977-980.

・” Reentrant behavior in the order-disorder phase transition of a charged monodisperse latex.
A.Toyotama, T. Sawada, J. Yamanaka, and K. Kitamura
Langmuir, 19, 2003, 3236–3239.

・ “Two dimensional auto-organized nanostructure formation of hyaluronate on bovine serum albumin monolayer andits surface properties.”
S-H.Xu, S.Sato, I. Miyata, J.Yamanaka, and M. Yonese
Mol. Simulations, 29, 2003, 1-6.

<総説>

・ “荷電コロイドの結晶化とゲルによる固定化”
山中淳平
高分子, 52, 2003, 710.

2002年

<原著論文>

・ “Photocontrol of polyion-complex formation between polylysine and condroitin sulfate in the presence of pararosaniline leucohydroxide.”
A. Toyotama, J.Yamanaka, and M.Yonese
Colloid Polym. Sci., 280, 2002, 539-546.

・ “Characteristics of Hyaluronate-hydroxyethyl Acrylate Blend Gel and Release of Cationic Amphiphilic Solutes.”
Y.Jin, J.Yamanaka, S.Sato, I.Miyata, C.Yomota, and M.Yonese
Chem. Pharm. Bull., 50, 2002, 1341-1348.

<総説>

・ “巨視的および微視的なイオン性コロイド系の相挙動”
山中淳平,廣間裕之,米勢政勝
バイオイメージング, 11, 2002, 10-14.

2001年

<原著論文>

・ “Preparation of a novel aggregate like sugar-ball micelle composed of poly(methylglutamate) and poly(ethyleneglycol) modifoed by lactose lacton and its molecular recognition by lectin.”
A.Toyotama, S.Kugimiya, J.Yamanaka, and M.Yonese
Chem. Pharm. Bull., 49, 2001, 169-172.

・ “Colloidal dispersions confined in voids of polymer gel matrix.”
J.Yamanaka, H.Hiroma, and M.Yonese
Proc. Japan. Acad., 77, Ser.B, 2001, 47–50.

・ “ Three-dimensional structure of a sinterd macroporous silica gel.
H.Jinnai, K.Nakanishi, Y. Nishikawa, J.Yamanaka, and T.Hashimoto
Langmuir, 17, 2001, 619-625.

・ “Two dimensional auto-organized nanostructure formation of acid polysaccharides on bovine serum albumin monolayer and its surface tension.”
S.Xu, T.Nonogaki, K.Tachi, S.Sato, I.Miyata, J.Yamanaka, and M.Yonese
Studies Surf. Sci. Catal., 132, 2001, 889-892.

・ “Recyclable characteristics of hyaluronate-polyhydroxyethyl acryrate blend hydrogel for controlled release.”
J.Yu, J.Yamanaka, S.Sato, I.Miyata, C.Yomota, and M.Yonese
J. Control. Release, 73, 2001, 173-181.

・ “Ordered structure in ionic dilute solutions: dendrimers with univalent and bivalent counterions.”
A. Ohshima, T.Konishi, J.Yamanaka, and N. Ise
Phys. Rev. E, 64, 2001, 051808~1-9.

<総説>

・ “X-ray scattering study of ionic colloidal crystals”
N. Ise, T. Konishi, and J.Yamanaka
Current Opinion Colloid Interface Sci., 6, 2001,126 - 131.

2000年

<原著論文>

・ “Characteristics of complexes between sodium hyaluronate and bovine serum albumin.”
S. Xu, J.Yamanaka, S.Sato, I. Miyata, and M.Yonese
Chem. Pharm. Bull., 48, 2000, 779-783.

<著書>

・ “Photonic band structure of colloidal crystals.”
J.Yamanaka, N.Ise, T.Hashimoto, and M.Yonese
Statistical Physics, pp. 188-189.
Eds. M. Tokuyama and H. E. Stanley, American Institute of Physics, N.Y., 2000.

1999年

<原著論文>

・ “ Transition between ordered and disordered phases and their coexistence in dilute ionic colloidal dispersions.
H.Yoshida, J.Yamanaka,T.Koga, T.Koga, N.Ise, and T.Hashimoto
Langmuir, 15, 1999, 2684 – 2702

・ “ Reentrant order-disorder transition in ionic colloidal dispersions by varying particle charge density.
J.Yamanaka, H.Yoshida, T.Koga, N.Ise, and T.Hashimoto
Langmuir, 15, 1999, 4198 – 4202.

<著書>

・ “Crystallization of charged colloidal silica dispersions with increasing temperature.”
J.Yamanaka, H,Yoshida, T.Koga, N. Ise, and T.Hashimoto
AIP Conference Series 469, pp.144-145.
Eds., M. Tokuyama and I. Oppenheim, American institute of Physics, N.Y., 1999.

・ “Reentrant order-disorder transition in ionic colloidal dispersions by varying particle charge density."
J.Yamanaka, H.Yoshida, T.Koga, N.Ise, and T.Hashimoto
In Polyelectrolyte, pp.225-228.
Eds., I. Noda and E. Kokufuta, Yamada Science Foundation, Osaka, 1999.

1998年

<原著論文>

・ “ Novel crystallization process in dilute ionic colloids.
H.Yoshida, J.Yamanaka, T.Koga, N.Ise, and T. Hashimoto
Langmuir, 14, 1998, 569-574.

・ “Reentrant solid-liquid transition in ionic colloidal dispersions by varying particle charge density.” J.Yamanaka, H.Yoshida, T.Koga, N.Ise, and T.Hashimoto
Phys. Rev. Lett., 80, 1998, 5806-5809.

<著書>

・ “Influence of particle charge number on the order-disorder transition in electrostatically stabilized colloidal dispersions.”
J.Yamanaka, T. koga, H.Yoshida, N. Ise, and T.Hashimoto
In Statistical Physics, Experiments, Theoreis and Computer Simulations, pp.59.
Eds., M. Tokuyama and I. Oppenheim, World Scientific, Singapore, 1998.