What is she best known for?
The fields of study Natsuko Sakai is best known for:
Natsuko Sakai combines subjects such as Analytical Chemistry (journal), Chromatography and Electrolyte, Electrode with her study of Activation energy.
Natsuko Sakai applies her multidisciplinary studies on Analytical Chemistry (journal) and Ion in her research.
She integrates many fields, such as Ion and Secondary ion mass spectrometry, in her works.
Her study on Chromatography is mostly dedicated to connecting different topics, such as Secondary ion mass spectrometry.
Natsuko Sakai performs multidisciplinary study on Electrolyte and Cathode in her works.
Borrowing concepts from Solid oxide fuel cell, she weaves in ideas under Cathode.
With her scientific publications, her incorporates both Electrode and Anode.
While working on this project, she studies both Anode and Solid oxide fuel cell.
Natsuko Sakai links adjacent fields of study such as Fuel cells and Perovskite (structure) in the subject of Chemical engineering.
Her most cited work include:
- Thermodynamic stabilities of perovskite oxides for electrodes and other electrochemical materials (198 citations)
- Characteristics of Slurry‐Coated Nickel Zirconia Cermet Anodes for Solid Oxide Fuel Cells (144 citations)
- Chemical Thermodynamic Considerations in Sintering of LaCrO3 ‐ Based Perovskites (135 citations)
What are the main themes of her work throughout her whole career to date
Her Physical chemistry study frequently links to adjacent areas such as Conductivity.
As part of her studies on Organic chemistry, she often connects relevant subjects like Perovskite (structure).
Natsuko Sakai incorporates Metallurgy and Mineralogy in her research.
Natsuko Sakai performs multidisciplinary study in Mineralogy and Metallurgy in her work.
In her research, she undertakes multidisciplinary study on Electrode and Electrochemistry.
Electrochemistry and Electrode are two areas of study in which Natsuko Sakai engages in interdisciplinary research.
Her Lanthanum research extends to Inorganic chemistry, which is thematically connected.
In her articles, she combines various disciplines, including Chemical engineering and Physical chemistry.
She performs multidisciplinary study in Oxide and Alloy in her work.
Natsuko Sakai most often published in these fields:
- Physical chemistry (69.17%)
- Organic chemistry (66.67%)
- Metallurgy (63.33%)
What were the highlights of her more recent work (between 2007-2013)?
- Metallurgy (76.47%)
- Organic chemistry (64.71%)
- Oxide (64.71%)
In recent works Natsuko Sakai was focusing on the following fields of study:
In her research, Natsuko Sakai performs multidisciplinary study on Metallurgy and Metal.
She incorporates Metal and Metallurgy in her research.
Her Organic chemistry study frequently draws connections between related disciplines such as Phase (matter).
Phase (matter) is closely attributed to Organic chemistry in her research.
In her works, Natsuko Sakai conducts interdisciplinary research on Oxide and Alloy.
Natsuko Sakai undertakes multidisciplinary studies into Alloy and Oxide in her work.
Natsuko Sakai carries out multidisciplinary research, doing studies in Physical chemistry and Chemical engineering.
In her papers, she integrates diverse fields, such as Chemical engineering and Physical chemistry.
In her papers, she integrates diverse fields, such as Inorganic chemistry and Ion.
Between 2007 and 2013, her most popular works were:
- Thermodynamic and kinetic considerations on degradations in solid oxide fuel cell cathodes (123 citations)
- Enhancement of oxygen exchange at the hetero interface of (La,Sr)CoO3/(La,Sr)2CoO4 in composite ceramics (119 citations)
- Rearing in enriched environment increases parvalbumin-positive small neurons in the amygdala and decreases anxiety-like behavior of male rats (64 citations)
In her most recent research, the most cited works focused on:
Natsuko Sakai connects Oxygen with Phase (matter) in her research.
With her scientific publications, her incorporates both Phase (matter) and Oxygen.
As part of her studies on Organic chemistry, Natsuko Sakai often connects relevant areas like Strontium.
Her Strontium study frequently involves adjacent topics like Organic chemistry.
She integrates Ceramic with Solid oxide fuel cell in her study.
Her research on Solid oxide fuel cell often connects related topics like Physical chemistry.
Her multidisciplinary approach integrates Physical chemistry and Chemical engineering in her work.
She performs multidisciplinary studies into Chemical engineering and Metallurgy in her work.
Natsuko Sakai connects Metallurgy with Intermetallic in her study.
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