論文発表

2025年

1. Y. Matsushita, G. Inoue, Z. Zhao, N. Ogawa, H. Ishiguro, K. Sunada, K. Ishibashi, H. Kojima, T. Shimizu, T. Ito, “Antibacterial and bactericidal properties of resin nanostructures coated with SiO2 thin films”, Colloids and Surfaces B: Biointerfaces, 250 (2025) 114560.

2.伊藤 健、「ナノ構造が発現する抗微生物作用」、レーザー研究, 53(1) (2025) 5.

3.伊藤 健、趙 子豪、「セミの翅にあるナノ構造に着想を得た「ナノスパイク」と機能発現」、材料の科学と工学, 62(1) (2025) 2-5.

2024年

1. S. Matsumoto, S. Tanaka, T. Nagao, T. Shimizu, S. Shingubara, T. Ito, “Evaluating the Anti-biofilm Performance of Si and Resin Based Nanopillars,” Journal of Photopolymer Science and Engineering, 37 (2024) 379.

2. Z. Zhao, N. Liang, T. Shimizu, S. Shingubara, T. Ito, “Antifouling performance against SiO2 particulate matter adhesion of cyclo orefin polymer nanopillar surfaces,” Environmental Science: Nano, 11 (2024) 4359.

3. Z. Zhao, Y. Matsushita, N. Ogawa, G. Inoue, T. Shimizu, S. Shingubara, T. Ito, “Bactericidal Performance of Nanostructures Resin Surfaces: nanopillars versus nanocones”, ACS Applied Nano Materials, 7 (2024) 14040.　

4. S. Matsumoto, H. Tatsuoka, M. Yoshii, T. Nagao, T. Shimizu, S. Shingubara, S. Tanaka, and T. Ito, “Anti-Biofilm Performance of Resin Nanopillars Inspired from Cicada Wing Surface for Staphylococcus spp.”, Biomimetics, 9 (2024) 739.

2023年

1. Z. Zhao, T. Shimizu, S. Shingubara, T. Ito, “Cicada wing-inspired artificial nanopatterns with antifouling properties for cray adhesion”, Physica Scripta, 98, (2023) 085929.
2. 伊藤健, 「ナノ材料を用いた微生物制御」,日本防菌防黴学会誌, 51, (2023) 447.
3. M. Daimon, Y. Yanagisawa, K. Ishibashi, Y. Tominari, S. Tanaka, H. Kojima, T. Shimizu, S. Shingubara, T. Ito, “Fluorescence Intensity of Liposomes and E. coli Attached to Nanopillar Arrays : Implications for Bacterial Death on Nanostructures”, ACS Applied Nano Materials, 6, (2023) 1610.
4. 伊藤健, 「バイオミメティクスの手法による殺菌・抗菌材料の開発」、成型加工, 35, (2023) 44.

2022年

1. S. Mimira, T. Shimizu, S. Shingubara, H. Iwaki, T. Ito, “Bactericidal effect of nanostructures via lytic transglycosulases of E. coli“, RSC Advances, 12, (2022) 1645.
2. N. Ogawa, T. Shimizu, S. Shingubara, T. Ito, “Fabrication of polymeric nano pillars and evaluation their bactericide properties”, IEEE Trans. 22nd Int. Conf. on Nanotechnology, (2023) 64.
3. N. Ogawa, K. Sato, K. Sunada, H. Ishiguro, H. Kojima, T. Ito, “Polymeric Antibacterial Surfaces with Nano-pillar Arrays Mimicking Cicada Wings”, J. Photopolymer Sci. Tech., 35, (2022) 213.

2021年

1.伊藤健、セミの翅を模倣した抗菌素材の開発と抗菌原理の解明を目指して、科学と工業, 95, (2021) 357-363.

2. 伊藤健、セミの翅から殺菌、抗菌作用を導く、日本防菌防黴学会誌, 49, (2021) 437-441

2020年

1.伊藤健、セミから学ぶ抗菌・殺菌材料、医学の歩み,275, (2020) 379-384.

2.K. Jindai, K. Nakade, K. Masuda, T. Ssgawa, H. Kojima, T. Shimizu, S. Shingubara, T. Ito, “Adhesion and bactericidal properties of nanostructured surfaces dependent on bacterial motility”, RSC Advances, 10, (2020) 5673.

2019年

1.T. Ito, K. Nakade, K. Jindai, T. Sagawa, H. Kojima, T. Shimizu, S. Shingubara, “Time-lapse imaging of bactericidal effect on nanostructural surface”, Proceedings SPIE10965, (2019) 109650N.

2.K. Nakade, T. Sagawa, H. Kojima, T. Shimizu, T. Ito, “Single Cell / real-time imaging of bactericidal effect on the nanostructural surface”, Material Today: Proceedings, 7, (2019) 497-500.

3.K. Jindai, K. Nakade, T. Sagawa, H. Kojima, T. Shimizu, S. Shingubara, T. Ito, “Investigation of nanostructural-based bactericidal effect derived from a cicada wing by using QCM-D”, Material Today: Proceedings, 7, (2019) 492-496.

4.伊藤　健, “クマゼミの翅を模倣した抗菌材料の開発”, 機能材料, 39, (2019) 44-52.

2018年

1.K. Nakade, K. Jindai, T. Sagawa, H. Kojima, T. Shimizu, S. Shingubara, T.Ito “Adhesion and Bactericidal Properties of a Wettability-Controlled Artificail Nanostructure”, ACS Applied Nano Materials, 1, (2018) 5736-5741.

2.伊藤　健、セミの翅が持つナノ構造に起因する抗菌特性とその模倣、フラグレンスジャーナル, 46, (2018) 51-56.

2017年

1.T. Ito, K. Nakade, N. Asai, T. Shimizu, S. Shingubara, “Antibacterial property of Si nanopillar array fabricated using metal assisted etching; mimic a cicada wing”, ECS Trans., 75(53), (2017) 1-5.

2.青柳誠司、高橋智一、伊藤健, 精密加工による種々の生物模倣デバイス、超精密, 23 (2017) 37-43.

2016年

1.伊藤健, 制御可能なナノ構造を利用した高感度センサと抗菌素材の創出、ケミカルエンジニアリング, 61, (2016) 1-6.