Tomonori Sugiyama scite author profile

The wireless communications have been tremendously developed in the recent ubiquitous age. The utilizable frequency region has been expanded to millimeterwaves because of shortage of conventional frequency regions. For the ultra high frequencies of millimeterwaves, dielectrics with ultra high quality factor Q and low dielectric constant ε r are desired. Low ε r is necessary to short the delay time of signals and to make devices small in size. Silicates for candidate of millimeterwave materials have low dielectric constant, because of silica-oxygen tetrahedra composed of half covalent bonds. Forsterite (Mg 2 SiO 4 ) as such kind of silicates has high Q · f of 270000 GHz and low ε r of 6.8. The temperature coefficient of resonant frequency τ f was improved by adding rutile TiO 2 with high τ f of plus 450 ppm/ • C. In this paper, these results for forsterite are summarized.Keywords Microwave and millimeterwave dielectric ceramics . Silicate . Forsterite

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High-Concentration Synthesis of Sub-10-nm Copper Nanoparticles for Application to Conductive Nanoinks

Hokita

Kanzaki

Sugiyama

et al. 2015

ACS Appl. Mater. Interfaces

100

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A simple, high-concentration (up to 0.6 M Cu salt) synthesis of sub-10-nm copper nanoparticles (Cu NPs) was developed in ethylene glycol at room temperature under ambient air conditions using 1-amino-2-propanol (AmIP) as the stabilizer. Monodispersed AmIP-Cu NPs of 3.5 ± 1.0 nm were synthesized in a high yield of ∼90%. Thus, nearly 1 g of sub-10-nm Cu NP powder was obtained using a one-step synthesis for the first time. It is proposed that metallacyclic coordination stability of a five-membered ring type between the Cu and AmIP causes the high binding force of Am IP onto the Cu surface, resulting in the superior stability of the AmIP-Cu NPs in a solution. The purified powder of AmIP-Cu NPs can be redispersed in alcohol-based solvents up to high Cu contents of 45 wt % for the preparation of Cu nanoink. The resistivity of the conductive Cu film obtained from the Cu nanoink was 30 μΩ cm after thermal heating at 150 °C for 15 min under a nitrogen flow. The long-term resistance stability of the Cu film under an air atmosphere was also demonstrated.

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Microwave dielectric properties of forsterite-based solid solutions

Sugiyama

Tsunooka

Kakimoto

et al. 2006

Journal of the European Ceramic Society

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Development of Forsterite with High Q and Zero Temperature Coefficient τ<sub>f</sub> for Millimeterwave Dielectric Ceramics

Tsunooka

Sugiyama²,

Ohsato

et al. 2004

KEM

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High-Q pure forsterite (Mg 2 SiO 4 ) ceramics with Qf = 240,000 GHz were developed by the usual solid sintering process, using raw materials of highly purified MgO and SiO 2 .The τ f (temperature coefficient of the resonant frequency) was a large and negative: -60 to -70 ppm/ºC. To adjust the τ f value to zero, rutile (TiO 2 ) with high τ f (450 ppm/ºC) was added. When sintering temperature was selected as low as possible, TiO 2 remained in the forsterite specimen, which raised τf from a negative to positive values. For instance, the 30 wt% TiO 2 added forsterite ceramics sintered at 1200ºC yield a high density (3.3 g/cm 3 ), which same as that of the same forsterite ceramics sintered at 1350ºC. A part of added TiO 2 works for sintering aid and residual ones do for arising the τf value from negative to positive. Improved forsterite ceramics have τ f = 0 ppm/˚C, ε r = 11 and Qf = 82,000 GHz, when they contains 24 wt% of TiO 2 and sintered at 1200ºC for 2h.

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Low-temperature sintering of metallacyclic stabilized copper nanoparticles and adhesion enhancement of conductive copper film to a polyimide substrate

Sugiyama

Kanzaki

Arakawa

et al. 2016

J Mater Sci: Mater Electron

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