| Field | Author(s) | Title | Journal | Volume, Issue, & Page | Year & Month | Notes |
| Surface | F. Meng, J. Liu, and N. Arai | Investigating the Nanostructure Design Mechanism Behind the Hydrophobicity of Biomimetic Surface | ACS Appl. Mater. Interfaces. | DOI: 10.1021/acsami.5c01743 | 2025/XX | accepted |
| Molecular Motor, Active Matter | H. Ueno, Y. Ishiwatari, K. Sasaki, T. Kojima, A. Takai, K. Asakura, N. Arai, and T. Banno | Molecular Insights into the Motion of Oil Droplets in Aqueous Solutions of Ester- and Amide-Containing Cationic Surfactants | J. Mol. Liq. | DOI: 10.1016/j.molliq.2025.127352 | 2025/XX | accepted |
| Graphene | T. Sakuma, R. Sato, A.Yamaguchi, H. Imai, N. Arai, and Y. Oaki | Synthesis of Amorphous Graphene and Graphene Oxide Analogs | J. Am. Chem. Soc. | 147 (13), 11564−11573 | 2025/04 | |
| Micelle, Vesicle | S. Sasaki, H. Ueno, N. Arai, K. Asakura, and T. Banno | A molecular strategy for creating functional vesicles with balancing structural stability and stimuli-responsiveness | Nanoscale | DOI: 10.1039/D5NR00151J | 2025/02 | |
| Emulsion | K. Suzuki, Y. Kobayashi, T. Yamazaki, T. Tsuji, and N. Arai | Effects of grafting architecture of amphiphilic polymer-grafted nanoparticles on stabilization mechanisms of concentrated emulsions | Colloids Interface Sci. Commun. | 65, 100822 | 2025/02 | |
| Polymer | A. Yamaguchi, S. Arai, and N. Arai | Fundamentals of Toughening Core-Shell Bioplastic Materials from a Molecular Perspective | ACS Sustain. Chem. Eng. | 13 (1), 535-546 | 2025/01 | |
| Machine Learning | T. Sudo, S. Ishiai, Y. Ishiwatari, T. Yokoyama, K. Yasuoka, and N. Arai | Machine learning-enabled exploration of mesoscale architectures in amphiphilic-molecule self-assembly | Next Res. | 2 (1), 100150 | 2025/01 | |
| Surface | K. Sasaki, Y. Ishiwatari, K. Ueno, T. Kojima, T. Banno, and N. Arai | Molecular Modeling of Active Oil Droplet Propulsion: Insights from Dissipative Particle Dynamics Simulation | Chem. Phys. Lett. | 857, 141680 | 2024/12 | |
| Emulsion | T. Yamazaki, K. Suzuki, Y. Kobayashi, N. Arai, and T. Tsuji | Poly(vinyl alcohol)-modified poly(methyl methacrylate) particles for solid-stabilized oil-in-water emulsions | Colloids Surf. A | 697 (20), 134433 | 2024/09 | |
| Liquid Crystal | T. Sato, H. Tsujinoue, K. Z. Takahashi, and N. Arai | Coarse-grained molecular simulation of the effect of liquid crystal molecular pitch on structure in cylindrical confinement | Phys. Rev. E | 110 (1), 014701 | 2024/07 | |
| Liquid Crystal | K. Yamada and N. Arai | Cholesteric liquid crystal phase variations within nanotubes: An in-depth analysis of the influences of twist Radius and molecular pitch | Liq. Cryst. | 51 (7), 1204-1214 | 2024/05 | |
| Surface | I. Yasuda, K. Endo, N. Arai, and K. Yasuoka | In-layer inhomogeneity of molecular dynamics in quasi-liquid layers of ice | Commun. Chem. | 7, 117 | 2024/05 | |
| Polymer | A. Yamaguchi, S. Arai and N. Arai | Design strategy for blends of biodegradable polyester and thermoplastic starch based on a molecular dynamics study of the phase-separated interface | Carbohydr. Polym. | 333, 122005 | 2024/03 | |
| Liquid Crystal | D. Morishita, Y. Itoh, K. Furukawa, N. Arai, X.-J. Zhang, T. Aida | Supramolecular Copolymerization of Hydrophobic and Hydrophilic Monomers in Liquid Crystalline Media | Chem. Sci | 15 (11), 4068-4074 | 2024/02 | |
| Surface | 荒井規允, 戎崎俊一 | 生体から発想を得た分子スケールの水輸送方法の提案 | TEN | 5, 65-76 | 2024/02 | |
| Machine Learning | Y. Ishiwatari, T. Yokoyama, T. Kojima, T. Banno and N. Arai | Machine learning prediction of self-assembly and analysis of molecular structure dependence on critical packing parameter | Mol. Syst. Des. Eng. | 9 (1), 20-28 | 2024/01 | selected as HOT MSDE article |
| Emulsion | K. Suzuki, Y. Kobayashi, T. Yamazaki, T. Tsuji, and N. Arai | Mechanisms underlying the stability and instability of concentrated oil-in-water emulsions: Effect of the chemical structure of amphiphilic polymers | J. Mol. Liq. | 394, 123749 | 2024/01 | |
| Machine Learning | J. Mustali, I. Yasuda, Y. Hirano, K. Yasuoka, A. Gautieri, and N. Arai | Unsupervised Deep Learning for Molecular Dynamics Simulations: A Novel Analysis of Protein-Ligand Interactions in SARS-CoV-2 Mpro | RSC. Adv. | 13 (48), 34249-34261 | 2023/11 | |
| Machine Learning | M. Hamaguchi, H. Miwake, R. Nakatake, and N. Arai | Predicting the Performance of Functional Materials Composed of Polymeric Multicomponent Systems Using Artificial Intelligence ~Formulations of Cleansing Foams as an Example | Polymers | 15 (21), 4216 | 2023/10 | |
| Polymer | A. Yamaguchi, S. Arai and N. Arai | Molecular insight into toughening induced by core-shell structure formation in starch-blended bioplastic composites | Carbohydr. Polym. | 315, 120974 | 2023/09 | |
| Surface | F. Meng and N. Arai | The relationship between nanostructured bio-inspired materials surfaces and free energy barrier using coarse-grained molecular dynamics | Biomimetics | 8 (6), 453 | 2023/09 | |
| Nanoparticle | T. Yokoyama, Y. Kobayashi, N. Arai, and A. Nikoubashman | Aggregation of Amphiphilic Nanocubes in Equilibrium and Under Shear | Soft Matter | 19 (34), 6480-6489 | 2023/08 | |
| Biomolecules | S. Sakai, Y. Hirano, Y. Kobayashi, and N. Arai | Effect of temperature on the structure and drug-release behaviour of inclusion complex of β-cyclodextrin with cyclophosphamide: A molecular dynamics study | Soft Matter | 19 (16), 2902-2907 | 2023/04 | |
| Surface | N. Arai, E. Yamamoto, T. Koishi, Y. Hirano, K. Yasuoka and T. Ebisuzaki | Wetting hysteresis induces effective unidirectional water transport through a fluctuating nanochannel | Nanoscale Horiz. | 8, 652-661 | 2023/02 | |
| Micelle, Vesicle | T. Yokoyama, H. Miwake, M. Hamaguchi, R. Nakatake, and N. Arai | Reproduction of super-multicomponent self-assembled structures and their functionality using coarse-grained molecular simulation - the example of cleansing foams | Mol. Syst. Des. Eng. | 8 (4), 538-550 | 2023/01 | |
| Surface | I. Yasuda, Y. Kobayashi, K. Endo, Y. Hayakawa, K. Fujiwara, K. Yajima, N. Arai, and K. Yasuoka | Combining Molecular Dynamics and Machine Learning to Analyze Shear Thinning for Alkane and Globular Lubricants in Low Shear Regime | ACS Appl. Mater. Interfaces | 15 (6), 8567-8578 | 2023/01 | |
| Surface | Y. Kobayashi, N. Arai, and K. Yasuoka | Correlation between ordering and shear thinning in confined OMCTS liquids | J. Chem. Phys. | 157 (11), 114506 | 2022/09 | |
| Theory | L. Peng, N. Arai, and K. Yasuoka | A stochastic Hamiltonian formulation applied to dissipative particle dynamics | Appl. Math. Comput. | 426, 127126 | 2022/08 | |
| Nanoparticle | T. Sato, K. Esashika, E. Yamamoto, T. Saiki, and N. Arai | Theoretical Design of a Janus-Nanoparticle-Based Sandwich Assay for Nucleic Acids | Int. J. Mol. Sci. | 23 (15), 8807 | 2022/08 | |
| Review | 荒井規允 | 実験はもう不要?in silicoな製品開発に向けて〜「分子シミュレーション」×「人工知能」 | 月刊化学 | 77 (6), 68-69 | 2022/06 | |
| Review | 荒井規允 | ソフトマターの粗視化分子シミュレーション | J. Jpn. Soc. Colour Mater. | 95 (4), 92-97 | 2022/04 | |
| Surface | 荒井規允,古石貴裕,戎崎俊一 | 疎水性表面変化を利用した能動水輸送ポンプの散逸粒子動力学(DPD)シミュレーション | ながれ | 41 (2), 57-60 | 2022/04 | 第35回数値流体力学シンポジウム注目研究(10/244件) |
| Micelle, Vesicle | S. Tanaka, N. Arai, and Y. Kobayashi | Simulation study on the effects of the self-assembly of nanoparticles on thermal conductivity of nanofluids | Chem. Phys. Lett. | 785, 139129 | 2021/10 | |
| Review | 荒井規允 | 研究室だより「慶應義塾大学理工学部機械工学科 荒井研究室」 | アンサンブル | 23 (4), 290-293 | 2021/10 | |
| Review | 荒井規允 | 第27期総会・講演会および優秀公演報告 | メカトップ関東 | 124 (50), 2 | 2021/07 | |
| Nanoparticle | T. Sato, Y. Kobayashi, and N. Arai | Effect of chemical design of grafted polymers on the self-assembled morphology of polymer-tethered nanoparticles in nanotubes | J. Phys. Condens. Matter | 33 (36), 365404 | 2021/07 | |
| Micelle, Vesicle | Y. Kobayashi, H. Gomyo, and N. Arai | Molecular Insight into the Possible Mechanism of Drag Reduction of Surfactant Aqueous Solution in Pipe Flow | Int. J. Mol. Sci. | 22 (14), 7573 | 2021/07 | |
| Nanoparticle | T. Sato, Y. Kobayashi, T. Michioka, and N. Arai | Self-assembly of polymer-tethered nanoparticles with uniform and Janus surfaces in nanotubes | Soft Matter | 17 (15), 4047-4058 | 2021/03 | |
| Surface | N. Arai, T. Koishi, and T. Ebisuzaki | Nanotube Active Water Pump Driven by Alternating Hydrophobicity | ACS Nano | 15 (2), 2481-2489 | 2021/02 | |
| Nanoparticle | Y. Kobayashi, N. Arai, and A. Nikoubashman | Structure and Shear Response of Janus Colloid-Polymer Mixtures in Solution | Langmuir | 36 (47), 14214-14223 | 2020/11 | |
| Surface | H. Tsujinoue, Y. Kobayashi and N. Arai | Effect of the Janus Amphiphilic Wall on the Viscosity Behavior of Aqueous Surfactant Solutions | Langmuir | 36 (36), 10690-10698 | 2020/08 | |
| Liquid Crystal | H. Tsujinoue, T. Nozawa and N. Arai | Cylindrical defect structures formed by chiral nematic liquid crystal in quasi-one-dimensional nanotubes | Phys. Chem. Chem. Phys. | 22 (29), 16896-16904 | 2020/06 | |
| Machine Learning | T. Inokuchi, R. Okamoto, and N. Arai | Predicting molecular ordering in a binary liquid crystal using machine learning | Liq. Cryst. | 47 (3), 438-448 | 2020/03 | |
| Surface | N. Arai, Y. Kobayashi, and K. Yasuoka | Biointerface effect on the self-assembly of ribonucleic acids: A possible mechanism of RNA polymerization in the self-replication cycle | Nanoscale | 12 (12), 6691-6698 | 2020/03 | |
| Review | 小林祐生,荒井規允 | 界面活性剤水溶液およびコロイド懸濁液における自己集合と流動ダイナミクス | 混相流 | 34 (1), 11-18 | 2020/03 | |
| Polymer | R. Miwatani, K. Z. Takahashi, and N. Arai | Performance of coarse graining in estimating polymer properties:
comparison with the atomistic model | Polymers | 12 (2), 382 | 2020/02 | |
| Nanoparticle | Y. Kobayashi, N. Arai, and A. Nikoubashman | Structure and dynamics of amphiphilic Janus spheres and spherocylinders under shear | Soft Matter | 16 (2), 476-486
| 2020/01 | |
| Nanoparticle | Y. Araki, Y. Kobayashi, and N. Arai | Programmed self-assembly of tetrapod nanoparticles with an amphiphilic surface pattern: the effect of arm length and hydrophobic ratio | Mol. Sys. Des. Eng. | 4 (6), 1095-1102 | 2019/12 | Featured on the Journal Cover |
| Micelle, Vesicle | Y. Kobayashi, K. Nomura, T. Kaneko, and N. Arai | Replica exchange dissipative particle dynamics method on threadlike micellar aqueous solutions | J. Phys. Condens. Matter | 32 (11), 115901 | 2019/12 | |
| Polymer | Y. Araki and N. Arai | Dissociation effect of non–covalent bond for morphological behavior of triblock copolymers: A dissipative particle dynamics study | Chem. Eng. Commun. | 208(1), 1-13 | 2019/10 | |
| Review | 荒井規允 | 散逸粒子動力学(DPD)法を用いたソフトマターの分子シミュレーション | 可視化情報学会誌 | 39 (154), 107-113 | 2019/07 | |
| Nanoparticle | Y. Kobayashi and N. Arai | Predominant factor determining thermal conductivity behavior of nanofluid: Effect of cluster structures with various nanoparticles | J. Electrochem. Soc. | 166 (9) B3223-B3227 | 2019/05 | |
| Review | 荒井規允,泰岡顕治 | 理論系から見た分子集合体の機能設計ー凝集分子系の物性ダイナミクス | 第二次先端ウオッチング調査:融合領域の創成 複雑系のための分子科学ー集まって立ち現れる分子機能の理解と設計 | 35-38 | 2019/03 | 公益社団法人日本化学会,学術研究活性化委員会 |
| Nanoparticle | Y. Kobayashi, T. Inokuchi, A. Nishimoto, and N. Arai | Self-assembly of spheroidal triblock Janus nanoparticle solutions in nanotube | Mol. Syst. Des. Eng. | 4 (1), 122-132 | 2019/02 | |
| Liquid Crystal | H. Tsujinoue, T. Inokuchi, and N. Arai | Polymorphic transitions mediated surfactants in liquid crystal nanodroplet | Liq. Cryst. | 46 (9), 1428-1439 | 2019/02 | Featured on the Journal Cover |
| Micelle, Vesicle | Y. Kobayashi and N. Arai | Polymodal rheological behaviors induced by self-assembly of surfactants confined in nanotubes | J. Mol. Liq. | 374, 328-337 | 2019/01 | |
| Membrane | Y. Araki, Y. Kobayashi, T. Kawaguchi, T. Kaneko, and N. Arai | Water permeation in polymeric membranes: Mechanism and synthetic strategy for water-inhibiting functional polymers | J. Membrane Sci. | 564, 184-192 | 2018/10 | Press Release from Kindai Univ. |
| Membrane | T. Inokuchi and N. Arai | Relationship between water permeation and flip-flop motion in a bilayer membrane | Phys. Chem. Chem. Phys. | 20 (44), 28155-28161 | 2018/10 | |
| Machine Learning | T. Inokuchi, N. Li, K. Morohoshi, and N. Arai | Multiscale prediction of functional self-assembled materials using machine learning: High-performance surfactant molecules | Nanoscale | 10 (34), 16013-16021 | 2018/09 | Press Release from Kindai Univ. |
| Micelle, Vesicle | T. Seki, N. Arai, D. Suh, T. Ozawa, T. Shimada, K. Yasuoka, and A, Hotta | Self-assembly of peptide amphiphiles by vapor pressure osmometry and dissipative particle dynamics | RSC Adv. | 8 (47), 26461-26468 | 2018/07 | |
| Polymer | Y. Kobayashi and N. Arai | Janus or homogeneous nanoparticles mediated self-assembly of polymer electrolyte fuel cell membranes | RSC Adv. | 8 (33), 18568-18575 | 2018/05 | |
| Review | 樋口祐次,荒井規允 | 若手研究者より研究会に期待すること | アンサンブル | 20 (2), 102-104 | 2018/04 | |
| Review | 荒井規允,泰岡顕治 | 分子シミュレーション研究会の各種データ | アンサンブル | 20 (2), 105-107 | 2018/04 | |
| Nanoparticle | M. A. Bin Sazali, Y. Kobayashi, Y. Taniguchi, T. Nakashima, and N. Arai | Self-assembled morphology of tripod nanoparticle solutions ∼The effect of arm length and hydrophobic ratio∼ | Mol. Syst. Des. Eng. | 3 (3), 572-580 | 2018/02 | |
| Polymer | K. Wakimoto, H. Sasaki, and N. Arai | Dissipative particle dynamics simulation of the relaxation behaviour of a triblock copolymer supramolecular network | Mol. Simul. | 44 (7), 534-539 | 2018/01 | |
| Molecular Motor, Active Matter | M. Hojo, N. Arai, and T. Ebisuzaki | Understanding a molecular motor walking along a microtubule: An asymmetric Brownian motor driven by bubble formation with a focus on binding affinity | Mol. Simul. | 44 (7), 523-529 | 2018/01 | |
| Surface | N. Arai, T. Koishi, and T. Ebisuzaki | Theory of nanobubble formation and induced force in nanochannels | Phys. Rev. E | 96 (4), 042802 | 2017/10 | |
| Nanoparticle | Y. Taniguchi, M. A. Bin Sazali, Y. Kobayashi, N. Arai, T. Kawai, and T. Nakashima | Programmed self-assembly of branched nanocrystals with an amphiphilic surface pattern | ACS Nano | 11 (9), 9312–9320 | 2017/09 | |
| Nanoparticle | Y. Taniguchi, T. Takishita, Y. Kobayashi, N. Arai, T. Kawai and T. Nakashima | Amphiphilic self-assembly of semiconductor nanocrystals with heterogeneous compositions | EPL | 118 (6), 68001 | 2017/08 | |
| Liquid Crystal | T. Inokuchi and N. Arai | Liquid-crystal ordering mediated by self-assembly of surfactant solution confined in nanodroplet: A dissipative particle dynamics study | Mol. Simul. | 43 (13-16), 1218-1226 | 2017/08 | |
| Review | 金子敏宏,荒井規允,泰岡顕治 | ナノ多孔質体に閉じ込められた物質の固液相転移現象と自己組織化現象 | 伝熱 | 56 (236), 45-50 | 2017/07 | |
| Review | 荒井規允 | 研究室だより「近畿大学理工学部機械工学科 荒井研究室」 | アンサンブル | 19 (2), 137-140 | 2017/04 | |
| Micelle, Vesicle | Y. Kobayashi and N. Arai | Self-assembly of surfactant aqueous solution confined in a Janus amphiphilic nanotube | Mol. Simul. | 43(13-16), 1153-1159 | 2017/04 | |
| Polymer | N. Kadoya and N. Arai | Size dependence of static polymer droplet behavior from many-body dissipative particle dynamics simulation | Phys. Rev. E | 95 (4), 043109 | 2017/04 | |
| Review | B. Jaeil, 荒井規允 | カーボンナノチューブ内において形成される八角形チューブおよび鎖状構造とそれらが示す特異な挙動 | アンサンブル | 19 (1), 14-16 | 2017/01 | |
| Nanoparticle | Y. Kobayashi and N. Arai | Self-assembly and viscosity behavior of Janus nanoparticles in nanotube flow | Langmuir | 33 (3), 736-743 | 2017/01 | |
| Micelle, Vesicle | N. Arai, K. Yasuoka, and X. C. Zeng | Self-assembly of Janus oligomers into onion-like vesicles with layer-by-layer water discharging capability: A minimalist model | ACS Nano | 10 (8), 8026-8037 | 2016/08 | News release on Nebraska Today (Univ. Nebraska-Lincoln) |
| Micelle, Vesicle | N. Arai, Y. Yoshimoto, K. Yasuoka, and T. Ebisuzaki | Self-assembly behaviours of primitive and modern lipid membrane solutions: a coarse-grained molecular simulation study | Phys. Chem. Chem. Phys. | 18 (28), 19426-19432 | 2016/07 | |
| Nanoparticle | Y. Kobayashi and N. Arai | Self-assembly of Janus nanoparticle with a hydrophobic hemisphere in nanotube | Soft Matter | 12 (2), 378-385 | 2016/01 | |
| Nanoparticle | Y. Tamura and N. Arai | Molecular dynamics simulation of the melting processes of core–shell and pure nanoparticles | Mol. Simul. | 41 (10-12), 905-912 | 2015/10 | |
| Polymer | N. Arai | Structural analysis of telechelic polymer solution using dissipative particle dynamics simulations | Mol. Simul. | 41 (10-12), 996-1001 | 2015/10 | |
| Review | 荒井規允 | 分子シミュレーションによるソフトマター領域のスマートプロセス技術開発を目指して | スマートプロセス学会誌 | 4 (1), 40-45 | 2015/01 | |
| Membrane | N. Arai, T. Akimoto, E. Yamamoto, M. Yasui, and K. Yasuoka | Poisson property of the occurrence of flip-flops in a model membrane | J. Chem. Phys. | 140 (6), 064901 | 2014/02 | Featured on the Journal Cover |
| Micelle, Vesicle | N. Arai, K. Yasuoka, and X. C. Zeng | A vesicle cell under collision with a Janus or homogeneous nanoparticle: translocation dynamics and late-stage morphology | Nanoscale | 5 (19), 9089-9100 | 2013/08 | |
| Micelle, Vesicle | N. Arai, K. Yasuoka, and X. C. Zeng | Phase diagrams of confined solutions of dimyristoylphosphatidylcholine (DMPC) lipid and cholesterol in nanotubes | Microfluid. Nanofluid. | 14 (6), 995-1010 | 2013/06 | |
| Molecular Motor, Active Matter | N. Arai, K. Yasuoka, T. Koishi, T. Ebisuzaki, and X. C. Zeng | Understanding molecular motor walking along microtubule: A themo-sensitive asymmetric Brownian motor driven by bubble formation | J. Am. Chem. Soc. | 135 (23), 8616-8624 | 2013/06 | |
| Nanoparticle | N. Arai, K. Yasuoka, and X. C. Zeng | Self-assembly of triblock Janus nanoparticle in nanotube | J. Chem. Theory Comput. | 9 (1), 179-187 | 2013/01 | |
| Graphene | S. Seto, N. Arai, and K. Shintani | Atomistic study of the morphology of graphene on Si and SiC substrates | MRS Symp. Proc. | 1407, aa15, 47 | 2012/01 | |
| Micelle, Vesicle | N. Arai, K. Yasuoka, and X. C. Zeng | Nanochannel with uniform and Janus surfaces: Shear thinning and thickening in surfactant solution | Langmuir | 28 (5), 2866-2872 | 2012/01 | |
| Review | 荒井規允 | 散逸粒子動力学法を用いた界面活性剤水溶液の自己組織化の解明および高効率ナノモーターシステムの設計・開発 | アンサンブル | 13 (2), 81-87 | 2011/04 | |
| Molecular Motor, Active Matter | N. Arai, K. Yasuoka, T. Koishi, and T. Ebisuzaki | Asymmetric Brownian motor driven by bubble formation in a hydrophobic channel | ACS Nano | 4 (10), 5905-5913 | 2010/10 | |
| Review | 泰岡顕治,古石貴裕,美馬俊喜,荒井規允 | 固液界面現象の分子シミュレーション | トライボロジスト | 55 (4), 236-241 | 2010/04 | |
| Graphene | K. Sato, N. Arai, and K. Shintani | Molecular dynamics of carbon nanobearings | MRS Symp. Proc. | 1204, K05, 79 | 2010/01 | |
| Micelle, Vesicle | T. Seki, N. Arai, T. Ozawa, T. Shimada, K. Yasuoka, and A. Hotta | Dissipative particle dynamics studies on the self-assembling dynamics of the peptide amphiphiles | MRS Symp. Proc. | 1135, CC06, 2 | 2009/01 | |
| Micelle, Vesicle | N. Arai, K. Yasuoka, and X. C. Zeng | Self-assembly of surfactants and polymorphic transition in nanotubes | J. Am. Chem. Soc. | 130 (25), 7916-7920 | 2008/05 | JACS Select 2008 |
| Micelle, Vesicle | N. Arai, K. Yasuoka, and Y. Masubuchi | Spontaneous self-assembly process for threadlike micelles | J. Chem. Phys. | 126 (24), 244905 | 2007/06 | |