Institution
Toyota
Company•Safenwil, Switzerland•
About: Toyota is a company organization based out in Safenwil, Switzerland. It is known for research contribution in the topics: Internal combustion engine & Battery (electricity). The organization has 40032 authors who have published 55003 publications receiving 735317 citations. The organization is also known as: Toyota Motor Corporation & Toyota Jidosha KK.
Topics: Internal combustion engine, Battery (electricity), Exhaust gas, Layer (electronics), Electrode
Papers published on a yearly basis
Papers
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TL;DR: The simulation-motivated synthesis of ultraporous metal–organic frameworks (MOFs) based on metal trinuclear clusters, namely, NU-1501-M (M = Al or Fe), achieves high gravimetric and volumetric uptake and delivery of methane and hydrogen and exhibits one of the best deliverable hydrogen capacities.
Abstract: A huge challenge facing scientists is the development of adsorbent materials that exhibit ultrahigh porosity but maintain balance between gravimetric and volumetric surface areas for the onboard storage of hydrogen and methane gas—alternatives to conventional fossil fuels. Here we report the simulation-motivated synthesis of ultraporous metal–organic frameworks (MOFs) based on metal trinuclear clusters, namely, NU-1501-M (M = Al or Fe). Relative to other ultraporous MOFs, NU-1501-Al exhibits concurrently a high gravimetric Brunauer−Emmett−Teller (BET) area of 7310 m2 g−1 and a volumetric BET area of 2060 m2 cm−3 while satisfying the four BET consistency criteria. The high porosity and surface area of this MOF yielded impressive gravimetric and volumetric storage performances for hydrogen and methane: NU-1501-Al surpasses the gravimetric methane storage U.S. Department of Energy target (0.5 g g−1) with an uptake of 0.66 g g−1 [262 cm3 (standard temperature and pressure, STP) cm−3] at 100 bar/270 K and a 5- to 100-bar working capacity of 0.60 g g−1 [238 cm3 (STP) cm−3] at 270 K; it also shows one of the best deliverable hydrogen capacities (14.0 weight %, 46.2 g liter−1) under a combined temperature and pressure swing (77 K/100 bar → 160 K/5 bar).
334 citations
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TL;DR: In this paper, an all-solid-state lithium ion battery was constructed with a screen-printing process using Nb doped Li7La3Zr2O12 (LLZONb) as the solid electrolyte and Li3BO3 (LBO) as a liquid electrolyte within the cathode layer.
330 citations
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TL;DR: In this article, an ultra-high-resolution electron microscopic observation was carried out to analyze the microstructure of diesel soot in further detail, and it was revealed that a primary particle has two distinct parts, each with different structures.
329 citations
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327 citations
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TL;DR: In this article, a tensile tester using an electrostatic-force grip was developed to evaluate the tensile strength and the reliability of thin-film materials, and the tester was constructed in a scanning electron microscope (SEM) chamber for in situ observation and was applied for tensile testing of polycrystalline silicon (poly-Si) thin films.
Abstract: A new tensile tester using an electrostatic-force grip was developed to evaluate the tensile strength and the reliability of thin-film materials. The tester was constructed in a scanning electron microscope (SEM) chamber for in situ observation and was applied for tensile testing of polycrystalline silicon (poly-Si) thin films with dimensions of 30-300 /spl mu/m long, 2-5 /spl mu/m wide, and 2 /spl mu/m thick. It was found that the mean tensile strengths of nondoped and P-doped poly-Si are 2.0-2.8 and 2.0-2.7 GPa, respectively, depending on the length of the specimens, irrespective of the specimen width. Statistical analysis of these size effects on the tensile strength predicted that the location of the fracture origin was on the edge of the specimen, which was Identified by the SEM observation of the fracture surface of the thin films.
327 citations
Authors
Showing all 40045 results
Name | H-index | Papers | Citations |
---|---|---|---|
Derek R. Lovley | 168 | 582 | 95315 |
Edward H. Sargent | 140 | 844 | 80586 |
Shanhui Fan | 139 | 1292 | 82487 |
Susumu Kitagawa | 125 | 809 | 69594 |
John B. Buse | 117 | 521 | 101807 |
Meilin Liu | 117 | 827 | 52603 |
Zhongfan Liu | 115 | 743 | 49364 |
Wolfram Burgard | 111 | 728 | 64856 |
Douglas R. MacFarlane | 110 | 864 | 54236 |
John J. Leonard | 109 | 676 | 46651 |
Ryoji Noyori | 105 | 627 | 47578 |
Stephen J. Pearton | 104 | 1913 | 58669 |
Lajos Hanzo | 101 | 2040 | 54380 |
Masashi Kawasaki | 98 | 856 | 47863 |
Andrzej Cichocki | 97 | 952 | 41471 |