Kohei Matsui scite author profile

One-shot double, triple, and quadruple borylation reactions of triarylamines were developed through a judicious choice of boron source and Brønsted base. With the aid of borylation reactions, a variety of BN-doped nanographenes were synthesized in two steps from commercially available starting materials. An organic light-emitting diode device employing BN-doped nanographene as an emitter exhibited deep pure-blue emission at 460 nm, with CIE coordinates of (0.13, 0.11), and an external quantum efficiency of 18.3%.

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Space charge behavior in low-density polyethylene at pre-breakdown

Matsui

Tanaka

Takada

et al. 2005

IEEE Trans. Dielect. Electr. Insul.

235

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Study on the physical disintegration characteristics of Subang claystone subjected to a modified slaking index test

et al. 2005

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Some instability problems were found on natural or engineered slopes mostly lying on Subang claystones. The instability problems included excessive erosion, slumps and rock falls. The field performance surveys of the problems suggested that the claystones physically weather rapidly so that the rock properties they exhibit during excavation often change to properties with a more characteristic of soil. Such a phenomenon is generally known as a slaking process. In order to gain better understanding about the slaking of Subang claystones, a series of experimental laboratory studies were carried out involving a modified slaking index test. Claystone samples used in this study were obtained from their exposures along the Northern West Java area of Indonesia. Petrographic analysis was correspondingly performed to identify mineral and texture/fabric, and in turn, to determine the inherent factors of the rocks which might affect the slaking process. The study results indicated that the claystones were characterized by high to very high slaking properties having a maximum slaking index (I s ) of 57.4% and a mean I s of 43.8%. Major dispersion slaking on sample surfaces and high cracking in response to excessive swelling were recognized as main slaking modes within the claystones. All samples lose progressively less material through the five wet-dry cycles of a slaking index test, indicating a decelerated slaking rate. It was evident that the main inherent factors controlling the slaking process were expandable clay mineral smectite, non-clay mineral pyrite and soluble mineral calcite. Moreover, a quite important of inherent bonding material and stress release energy in the slaking characteristics of the claystones was revealed by a closure phase of an initial hairline crack during unloading.

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High Junction Temperature and Low Parasitic Inductance Power Module Technology for Compact Power Conversion Systems

Tanimoto

Matsui

2015

IEEE Trans. Electron Devices

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Advanced power module technology capable of taking advantage of the superior features of next-generation power devices, such as those fabricated with SiC and GaN, must be developed to create much more compact and costeffective power conversion systems. New power modules based on such technology are especially required to allow fast switching of power devices in the extended junction temperature range. This paper describes the major technical challenges involved in sufficiently improving the thermal stress reliability of the critical package systems in SiC power modules and in markedly reducing internal parasitic inductance. Thermal stress reliabilities of the die attachment system, wire bonding system, and encapsulant system are successfully improved, all of which are shown to be able to achieve common life targets: 1) 3000 h for a storage test at 250°C and 2) 3000 cycles for thermal cycling between −40°C and 250°C. A novel phase-leg power module capable of substantially reducing the loop inductance along the principal current tracks is proposed and fabricated by applying SiC-JFETs, SiC-Schottky barrier diodes, and the abovementioned reliable thermal stress package systems. Double pulse switching testing of the module reveals smaller drain-source voltage spikes and ringing even in turn-ON and turn-OFF transients at very high slew rates of current and voltage. Finally, a 0.34 L forced-air-cooled dc 600 V input ac 50 Hz 400 V 25 kW output three-phase SiC inverter is fabricated using three-phase leg modules and its operation is demonstrated at high-power levels.

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Numerical analysis of packet-like charge behavior in low-density polyethylene under DC high electric field

Matsui

Tanaka

Takada

et al. 2008

IEEE Trans. Dielect. Electr. Insul.

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Kohei Matsui

One-Shot Multiple Borylation toward BN-Doped Nanographenes

Space charge behavior in low-density polyethylene at pre-breakdown

Study on the physical disintegration characteristics of Subang claystone subjected to a modified slaking index test

High Junction Temperature and Low Parasitic Inductance Power Module Technology for Compact Power Conversion Systems

Numerical analysis of packet-like charge behavior in low-density polyethylene under DC high electric field

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