What is he best known for?
The fields of study he is best known for:
- Thermodynamics
- Redox
- Aluminium
His scientific interests lie mostly in Oxide, Inorganic chemistry, Analytical chemistry, Solid oxide fuel cell and Yttria-stabilized zirconia.
His Oxide study incorporates themes from Alloy, Polarization, Chemical engineering and Conductivity.
His Inorganic chemistry research includes elements of Cathode, Electrolyte, Graphite and Isothermal process.
He specializes in Analytical chemistry, namely Secondary ion mass spectrometry.
His work carried out in the field of Solid oxide fuel cell brings together such families of science as Microstructure and Engineering physics.
The concepts of his Yttria-stabilized zirconia study are interwoven with issues in Electrochemistry and Doping.
His most cited work include:
- Thermodynamic considerations on Cr poisoning in SOFC cathodes (176 citations)
- Interaction between pre-landing activities and stiffness regulation of the knee joint musculoskeletal system in the drop jump: implications to performance. (149 citations)
- Stretch shortening cycle fatigue: interactions among joint stiness, reflex, and muscle mechanical performance in the drop jump (147 citations)
What are the main themes of his work throughout his whole career to date?
His primary scientific interests are in Oxide, Analytical chemistry, Inorganic chemistry, Chemical engineering and Electrolyte.
His research in Oxide intersects with topics in Alloy, Spinel, Anode and Fuel cells.
His Analytical chemistry research focuses on Partial pressure and how it connects with Activation energy.
His research in Inorganic chemistry focuses on subjects like Solid oxide fuel cell, which are connected to Perovskite.
His Chemical engineering research is multidisciplinary, incorporating perspectives in Yttria-stabilized zirconia, Pulsed laser deposition, Thin film and Mineralogy.
His studies deal with areas such as Cathode and Electrochemistry as well as Electrolyte.
He most often published in these fields:
- Oxide (37.17%)
- Analytical chemistry (31.86%)
- Inorganic chemistry (30.97%)
What were the highlights of his more recent work (between 2013-2021)?
- Chemical engineering (30.68%)
- Yttria-stabilized zirconia (23.89%)
- Cathode (23.01%)
In recent papers he was focusing on the following fields of study:
His main research concerns Chemical engineering, Yttria-stabilized zirconia, Cathode, Oxide and Electrolyte.
His Yttria-stabilized zirconia research includes themes of Polarization, Doping and Microstructure.
His Cathode study frequently draws connections to adjacent fields such as Analytical chemistry.
His research in Analytical chemistry is mostly concerned with Secondary ion mass spectrometry.
His Oxide research is multidisciplinary, relying on both Surface diffusion, Fuel cells and Mineralogy.
His biological study spans a wide range of topics, including Inorganic chemistry, Electrochemistry and Anode.
Between 2013 and 2021, his most popular works were:
- Sr and Zr diffusion in LSCF/10GDC/8YSZ triplets for solid oxide fuel cells (SOFCs) (77 citations)
- Effect of polarization on Sr and Zr diffusion behavior in LSCF/GDC/YSZ system (54 citations)
- Interrelation between Sulfur Poisoning and Performance Degradation of LSCF Cathode for SOFCs (24 citations)
In his most recent research, the most cited papers focused on:
- Thermodynamics
- Redox
- Aluminium
Teruhisa Horita spends much of his time researching Chemical engineering, Yttria-stabilized zirconia, Oxide, Cathode and Electrolyte.
As part of his studies on Yttria-stabilized zirconia, Teruhisa Horita often connects relevant subjects like Analytical chemistry.
He has included themes like Surface diffusion and Pulsed laser deposition in his Oxide study.
His Cathode research integrates issues from Thin film, Fuel cells and Sulfur.
His research integrates issues of Inorganic chemistry and Anode in his study of Electrolyte.
His Inorganic chemistry research incorporates themes from Cathodic polarization and Conductivity.
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