D-Index & Metrics Best Publications

D-Index & Metrics D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines.

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Materials Science D-index 46 Citations 10,467 224 World Ranking 6763 National Ranking 431

Overview

What is he best known for?

The fields of study he is best known for:

  • Crystal structure
  • Ceramic
  • Composite material

Hitoshi Ohsato focuses on Dielectric, Analytical chemistry, Mineralogy, Ceramic and Solid solution. His Dielectric research integrates issues from Lattice constant, Temperature coefficient, Crystal structure, Rutile and Ionic radius. His Analytical chemistry study integrates concerns from other disciplines, such as Orthorhombic crystal system, Curie temperature, Perovskite and Grain size, Grain growth.

Hitoshi Ohsato studied Orthorhombic crystal system and Tetragonal crystal system that intersect with Piezoelectricity and Phase boundary. His work deals with themes such as Condensed matter physics, Doping, Microstructure and Permittivity, which intersect with Mineralogy. As a part of the same scientific study, Hitoshi Ohsato usually deals with the Solid solution, concentrating on Octahedron and frequently concerns with Raman scattering.

His most cited work include:

  • Phase transitional behavior and piezoelectric properties of (Na0.5K0.5)NbO3–LiNbO3 ceramics (1247 citations)
  • (Na0.5K0.5)NbO3–LiTaO3 lead-free piezoelectric ceramics (549 citations)
  • Dielectric and piezoelectric properties of lead-free (Na0.5K0.5)NbO3–SrTiO3 ceramics (320 citations)

What are the main themes of his work throughout his whole career to date?

Hitoshi Ohsato mainly focuses on Dielectric, Analytical chemistry, Mineralogy, Ceramic and Solid solution. His Dielectric research includes elements of X-ray crystallography, Temperature coefficient, Crystal structure and Ionic radius. Hitoshi Ohsato works mostly in the field of Analytical chemistry, limiting it down to topics relating to Thin film and, in certain cases, Epitaxy and Annealing.

Hitoshi Ohsato works mostly in the field of Mineralogy, limiting it down to concerns involving Piezoelectricity and, occasionally, Ferroelectricity. Hitoshi Ohsato combines topics linked to Sintering with his work on Ceramic. His Solid solution study deals with Microwave dielectric properties intersecting with Dielectric ceramics.

He most often published in these fields:

  • Dielectric (50.00%)
  • Analytical chemistry (42.28%)
  • Mineralogy (36.42%)

What were the highlights of his more recent work (between 2009-2021)?

  • Dielectric (50.00%)
  • Ceramic (31.79%)
  • Mineralogy (36.42%)

In recent papers he was focusing on the following fields of study:

Hitoshi Ohsato spends much of his time researching Dielectric, Ceramic, Mineralogy, Composite material and Crystal structure. The study incorporates disciplines such as Extremely high frequency, Solid solution, Analytical chemistry and Engineering physics in addition to Dielectric. Many of his studies involve connections with topics such as Microstructure and Analytical chemistry.

His Ceramic research incorporates elements of Nanotechnology, Sintering, Relative density, Temperature coefficient and Forsterite. His Mineralogy research includes themes of Acceptor, Rare earth ions, Inorganic chemistry, Mn doped and X-ray crystallography. His Crystal structure study incorporates themes from Piezoelectricity, Optoelectronics, Dielectric resonator and Microwave dielectric properties.

Between 2009 and 2021, his most popular works were:

  • Functional advances of microwave dielectrics for next generation (63 citations)
  • Functional advances of microwave dielectrics for next generation (63 citations)
  • Millimeter-Wave Dielectric Properties of Cordierite/Indialite Glass Ceramics (29 citations)

In his most recent research, the most cited papers focused on:

  • Composite material
  • Ceramic
  • Crystal structure

His primary areas of investigation include Dielectric, Mineralogy, Ceramic, Cordierite and Composite material. His Dielectric research is multidisciplinary, incorporating perspectives in Electromagnetic radiation, Absorption and Nanotechnology. His study in Mineralogy is interdisciplinary in nature, drawing from both Piezoelectricity, Solid solution and Crystal structure.

The concepts of his Ceramic study are interwoven with issues in Extremely high frequency, Temperature coefficient and Analytical chemistry. Hitoshi Ohsato performs integrative study on Analytical chemistry and Natural bond orbital. His research on Cordierite also deals with topics like

  • Atmospheric temperature range, which have a strong connection to Powder diffraction, Thermal analysis, Permittivity and Relative permittivity,
  • Octahedron together with Volume, Tetrahedron and Orthorhombic crystal system.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Phase transitional behavior and piezoelectric properties of (Na0.5K0.5)NbO3–LiNbO3 ceramics

Yiping Guo;Ken-ichi Kakimoto;Hitoshi Ohsato.
Applied Physics Letters (2004)

2012 Citations

(Na0.5K0.5)NbO3–LiTaO3 lead-free piezoelectric ceramics

Yiping Guo;Ken-ichi Kakimoto;Hitoshi Ohsato.
Materials Letters (2005)

853 Citations

Dielectric and piezoelectric properties of lead-free (Na0.5K0.5)NbO3–SrTiO3 ceramics

Yiping Guo;Ken-ichi Kakimoto;Hitoshi Ohsato.
Solid State Communications (2003)

492 Citations

Raman Scattering Study of Piezoelectric (Na0.5K0.5)NbO3-LiNbO3 Ceramics

Ken-ichi Kakimoto;Koichiro Akao;Yiping Guo;Hitoshi Ohsato.
Japanese Journal of Applied Physics (2005)

353 Citations

Structure and Electrical Properties of Lead-Free (Na0.5K0.5)NbO3-BaTiO3 Ceramics

Yiping Guo;Ken-ichi Kakimoto;Hitoshi Ohsato.
Japanese Journal of Applied Physics (2004)

313 Citations

Characterization and dielectric behavior of willemite and TiO2-doped willemite ceramics at millimeter-wave frequency

Yiping Guo;Hitoshi Ohsato;Ken-ichi Kakimoto.
Journal of The European Ceramic Society (2006)

301 Citations

Science of tungstenbronze-type like Ba6–3xR8+2xTi18O54 (R=rare earth) microwave dielectric solid solutions

H. Ohsato.
Journal of The European Ceramic Society (2001)

282 Citations

The effect of rare-earth (La, Sm, Dy, Ho and Er) and Mg on the microstructure in BaTiO3

Hiroshi Kishi;Noriyuki Kohzu;Junichi Sugino;Hitoshi Ohsato.
Journal of The European Ceramic Society (1999)

271 Citations

Effects of TiO2 on sinterability and dielectric properties of high-Q forsterite ceramics

T. Tsunooka;M. Androu;Y. Higashida;H. Sugiura.
Journal of The European Ceramic Society (2003)

263 Citations

The Effect of MgO and Rare-Earth Oxide on Formation Behavior of Core-Shell Structure in BaTiO3

Hiroshi Kishi;Yoshikazu Okino;Mutsumi Honda;Yoshiaki Iguchi.
Japanese Journal of Applied Physics (1997)

186 Citations

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