Takuya Fujima scite author profile

Takuya Fujima

5Publications

91Citation Statements Received

121Citation Statements Given

How they've been cited

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121

Affiliations

Tokyo City University, Vision Engineering (Italy)

Publications

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Hierarchical Nanoporous Glass with Antireflectivity and Superhydrophilicity by One-Pot Etching

et al. 2014

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We have developed a hierarchical nanoporous layer (HNL) on silicate glass by a simple one-pot etching method. The HNL has a three-dimensionally continuous spongelike structure with a pore size of a few tens of nanometers on its apparent surface. The pore size gradually decreases from the apparent surface to the HNL-bulk interface. This HNL bestows significant properties to glass: low optical reflectivity that reflects 7% less visible light than nontreated glass and long-persistence superhydrophilicity that keeps its water contact angle at about 5° for more than 1 year. The superhydrophilicity also realizes antifogging and antifouling functionalities.

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Effects of Cr on the properties of Mo2NiB2 ternary boride

Takagi¹,

Koike²,

Momozawa³

et al. 2012

Solid State Sciences

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A PSS‐Free PEDOT Conductive Film Supported by a Hierarchical Nanoporous Layer Glass

Fujima

Uchiyama

Yasumoro

et al. 2018

Macro Materials & Eng

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The importance of transparent conductive film is increasing due to its use in applications such as touch‐panel devices. Although indium tin oxide is widely used because of its high conductivity and transparency, conductive polymers are being studied as alternative materials that avoid the use of rare metals and the brittleness associated with existing systems. Polyethylene dioxythiophene (PEDOT)/polyethylene sulfonic acid (PSS) is drawing a lot of attention due to its well‐balanced conductivity, transparency, film formability, and chemical stability. The nonconductive PSS reportedly covers the conductive PEDOT. The PSS shell provides carrier and film‐formability to PEDOT but is also a barrier that hinders electrical conductivity. Therefore, the PEDOT film formability is explored supported by a substrate without the addition of PSS. The “hierarchical nanoporous layer glass” holds the PSS‐free PEDOT with its nanopores to form a homogeneous, transparent film. The PSS‐free PEDOT film thus achieves transparency of over 85% and resistivity of below 500 Ω sq−1.

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Fingerprint Blurring on a Hierarchical Nanoporous Layer Glass

et al. 2019

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A fingerprint blurring phenomenon on a hierarchical nanoporous layer (HNL) glass has been discovered and experimentally investigated. The HNL glass was prepared by a simple one-pot etching as reported by the authors. IR absorption spectra and water contact angle revealed that the blurring does not come from a chemical decomposition but a transportation of the fingerprint components, and the capillary action drives the transportation, not the thermal diffusion. The fine pores in the HNL was indicated to develop the strong capillary force to blur the fingerprint. The fingerprint blurring phenomenon on the HNL can be a candidate for the third anti-fingerprint methodology after the popular ones of low frictional surfaces and anti-glare surfaces.

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A New Composite Structure of PEDOT/PSS: Macro-Separated Layers by a Polyelectrolyte Brush

et al. 2020

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Polyethylene dioxythiophene and polyethylene sulfonic acid (PEDOT/PSS) composite is gathering attention as an organic transparent conductive film material. However, it requires a core-shell structure in which conductive PEDOT is covered with insulating PSS. Providing film formability and a carrier to PEDOT, the PSS shell hinders carrier conduction as an insulating barrier. In this study, we realized that creating a macro-separated PEDOT/PSS composite by using a polyelectrolyte brush substrate and in-situ PEDOT polymerization without the PSS barrier increases durability and conductivity in comparison with commercially available PEDOT/PSS film, achieving a conductivity of 5000–6000 S/cm.

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Takuya Fujima

Hierarchical Nanoporous Glass with Antireflectivity and Superhydrophilicity by One-Pot Etching

Effects of Cr on the properties of Mo2NiB2 ternary boride

A PSS‐Free PEDOT Conductive Film Supported by a Hierarchical Nanoporous Layer Glass

Fingerprint Blurring on a Hierarchical Nanoporous Layer Glass

A New Composite Structure of PEDOT/PSS: Macro-Separated Layers by a Polyelectrolyte Brush

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