Toshiyuki Himi scite author profile

Toshiyuki Himi

5Publications

18Citation Statements Received

45Citation Statements Given

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Horiba (Japan)

Publications

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Label‐free optical detection of C‐reactive protein by nanoimprint lithography‐based 2D‐photonic crystal film

Endo

Kajita²,

Kawaguchi

et al. 2016

Biotechnology Journal

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The development of high-sensitive, and cost-effective novel biosensors have been strongly desired for future medical diagnostics. To develop novel biosensor, the authors focused on the specific optical characteristics of photonic crystal. In this study, a label-free optical biosensor, polymer-based two-dimensional photonic crystal (2D-PhC) film fabricated using nanoimprint lithography (NIL), was developed for detection of C-reactive protein (CRP) in human serum. The nano-hole array constructed NIL-based 2D-PhC (hole diameter: 230 nm, distance: 230, depth: 200 nm) was fabricated on a cyclo-olefin polymer (COP) film (100 µm) using thermal NIL and required surface modifications to reduce nonspecific adsorption of target proteins. Antigen-antibody reactions on the NIL-based 2D-PhC caused changes to the surrounding refractive index, which was monitored as reflection spectrum changes in the visible region. By using surface modified 2D-PhC, the calculated detection limit for CRP was 12.24 pg/mL at an extremely short reaction time (5 min) without the need for additional labeling procedures and secondary antibody. Furthermore, using the dual-functional random copolymer, CRP could be detected in a pooled blood serum diluted 100× with dramatic reduction of nonspecific adsorption. From these results, the NIL-based 2D-PhC film has great potential for development of an on-site, high-sensitivity, cost-effective, label-free biosensor for medical diagnostics applications.

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Development of Sub-5 nm Patterning by Directed Self-Assembly using Multiblock Copolymers

Himi

Kawaguchi

Kosaka

et al. 2016

J. Photopol. Sci. Technol.

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Polystyrene-b-poly(4-hydroxystyrene) (SH) with narrow molecular weight distribution (M w /M n <1.1) has been successfully synthesized by living anionic polymerization technique. It was confirmed that the SH diblock copolymer with molecular weight of 27k and with volume fraction of S of 0.68 showed the definite alternative lamellar structure with domain spacing of 20.8 nm (the half pitch (HP) of 10.4 nm). Furthermore, monodisperse SHSH tetrablock copolymers with molecular weight of 27k and 23k have been also synthesized, and from these copolymers formations of lamellar structure with the HP of 5.4nm and 4.9nm, respectively, were observed by TEM and SAXS measurements. Moreover, not only the synthesis of the block copolymers by anionic polymerization in experimental lab scale up to 25 g, but a preparation of well-defined block copolymers by large-scale anionic polymerization over 3 kg was also developed.

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Defect dynamics in directed self-assembly of block copolymers (Conference Presentation)

Azuma¹,

Seino²,

Sato³

et al. 2018

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Development of mass production technology for block copolymer lithographic materials

Himi

Matsuki

Kosaka

et al. 2017

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Formation of microphase-separated structure with half pitch less than 5.0nm formed by multiblock copolymers for nanolithographic application

Kosaka

Kawaguchi

Himi

et al. 2016

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Toshiyuki Himi

Label‐free optical detection of C‐reactive protein by nanoimprint lithography‐based 2D‐photonic crystal film

Development of Sub-5 nm Patterning by Directed Self-Assembly using Multiblock Copolymers

Defect dynamics in directed self-assembly of block copolymers (Conference Presentation)

Development of mass production technology for block copolymer lithographic materials

Formation of microphase-separated structure with half pitch less than 5.0nm formed by multiblock copolymers for nanolithographic application

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