New platform for simple and rapid protein-based affinity reactions, K. Kubota, T. Kubo*, T. Tanigawa, T. Naito, K. Otsuka, Sci. Rep., 7, 178, 2017

http://www.nature.com/articles/s41598-017-00264-y

Classification of Extracellular Vesicles based on Surface Glycan Structures by Spongy-like Separation Media, E. Kanao, S. Wada, H. Nishida, T. Kubo*, T. Tanigawa, K. Imami, A. Shimoda, K. Umezaki, Y. Sasaki, K. Akiyoshi, J. Adachi, K. Otsuka, Y. Ishihama, bioRxiv., 2022, doi: https://doi.org/10.1101/2022.05.10.491426

エクソソームのサブクラス分離へ向けたレクチン固定化スポンジ基材の開発，久保拓也*，加藤誠也，下田麻子，石川良賀，澤田晋一，佐々木善浩，秋吉一成，大塚浩二，分析化学，69(12), 731-735, 2020

Suppression of Hydrophobicity and Optimizations of a Ligand-Immobilization for Effective Affinity Chromatography Using a Spongy Monolith, N. Nishimura, T. Kubo*, T. Naito, K. Otsuka, Chromatography, 39, 113-118, 2018

Hybridization of A Macroporous Sponge and Spherical Microporous Adsorbents for High Throughput Separation of Ionic Solutes, T. Kubo*, K. Yasuda, Y. Tominaga, K. Hosoya, K. Otsuka, Anal. Sci., 29, 417–421, 2013

Rapid Separations on Liquid Chromatography Using Ion-Exchange Media Based on a Spongy Monolith, T. Kubo*, T. Tanigawa, Y. Tominaga, K. Hosoya, K. Otsuka, J. Sep. Sci., 36, 2813–2818, 2013

Specific Chromatographic Retentions on Polymer Pore Surface of Macroporous Spongy Monoliths, T. Tanigawa, T. Kubo, K. Hosoya*. Chem. Lett., 41, 1265­1266, 2012

Fundamental retention properties of macroporous spongy monolith and its application for effective concentration of PAHs, T. Tanigawa, K. Kato, Y. Watabe, T. Kubo*, K. Hosoya, J. Sep. Sci., 34, 2193–2198, 2011

Novel separation medium spongy monolith for high throughput analyses, F. Watanabe, T. Kubo*, K. Kaya, K. Hosoya, J. Chromatogr. A, 1216, 7402–7408, 2009