Oxide Product List and Ranking from 5 Manufacturers, Suppliers and Companies | IPROS

Last Updated: Aggregation Period:Apr 15, 2026~May 12, 2026
This ranking is based on the number of page views on our site.

Oxide Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Apr 15, 2026~May 12, 2026
This ranking is based on the number of page views on our site.

  1. 日本アエロジル Tokyo//others
  2. 河合石灰工業 Gifu//others
  3. Tohoku Techno Arch Co., Ltd. Miyagi//Educational and Research Institutions
  4. 4 香港奥爾曼實業 China//Mining
  5. 4 日下レアメタル研究所 藤沢工場 Kanagawa//others
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Oxide Product ranking

Last Updated: Aggregation Period:Apr 15, 2026~May 12, 2026
This ranking is based on the number of page views on our site.

  1. [Information] Application of AEROXIDE(R) in Lithium-ion Batteries 日本アエロジル
  2. Complex oxide "aluminum titanate filler" 河合石灰工業
  3. Tohoku Univ. Technology:Oxygen storage material, catalyst for cleaning exhaust gas, and method for manufacturing oxygen storage material: T20-3135 Tohoku Techno Arch Co., Ltd.
  4. Rare earth oxides, stable supply of rare earth metals in large quantities. 香港奥爾曼實業
  5. 4 Inorganic Materials Business - Business Introduction 日下レアメタル研究所 藤沢工場

Oxide Product List

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Tohoku Univ. Technology:Oxygen storage material, catalyst for cleaning exhaust gas, and method for manufacturing oxygen storage material: T20-3135

Tohoku Univ. Technology:Oxygen storage material, catalyst for cleaning exhaust gas, and method for manufacturing oxygen storage material: T20-3135

Oxygen storage material comprising oxide containing κ phase having large specific surface area

CeO2-ZrO2 composite oxide with excellent oxygen storage capacity (OSC) has been used as an atmosphere control material for ternary catalysts used to purify exhaust gas from automobiles. Among CeO2-ZrO2 composite oxides, κ phase (cubic pyrochlore like structure) is known to exhibit the highest OSC. However, due to the high temperature required for the synthesis process of κ phase, the specific surface area is significantly reduced and practical application of κ phase is difficult.  In the present invention, it has become possible to provide an atmosphere-controlling material consisting of an oxide containing κ phase, in which the decrease in the specific surface area is greatly suppressed by the synthesis process at a lower temperature than in the conventional process. The low temperature is realized by adding Fe oxide during the synthesis of the complex oxide. The material by this synthesis process shows a clear XRD pattern assigned to the κ phase and has a specific surface area of 3 m2/g or more. This shows the possibility of practical application of the κ phase, and it can be said that the technology is expected to improve the purification ability of exhaust gas.

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Rare earth oxides, stable supply of rare earth metals in large quantities.

Rare earth oxides, stable supply of rare earth metals in large quantities.

We can export through official channels from Vietnam and submit all necessary documents.

Our company can provide a large and stable supply of rare earth metals and rare earth oxides, as well as other rare earth materials. We export officially from Vietnam and Hong Kong, ensuring quality assurance, and we can provide specifications, samples, and all necessary documents. We can offer reasonable prices, so please feel free to contact us if you are interested. Thank you very much.

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[Information] Application of AEROXIDE(R) in Lithium-ion Batteries

[Information] Application of AEROXIDE(R) in Lithium-ion Batteries

For dry coating applications of positive electrode active materials! Introducing applications for lithium-ion batteries.

"AEROXIDE(R)" is a metal oxide used as an additive to improve the performance, lifespan, and safety of lithium-ion batteries. It enables the formation of ultra-thin ceramic coating layers, which was impossible with conventional coarse inorganic particles. The thin film ceramic coating layer produced by this product significantly reduces the thermal shrinkage of the separator, resulting in improved safety of the battery. By dry-coating the positive electrode active material with this product, the apparent density of the positive electrode active material powder increases. 【Applications】 - Improvement of cycle characteristics by dry-coating the positive electrode active material - Enhanced heat resistance by coating the separator - Increased strength by filling the separator internally - Improved rheological properties by adding to the electrolyte *For more details, please refer to the PDF document or feel free to contact us.

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Inorganic Materials Business - Business Introduction

Inorganic Materials Business - Business Introduction

It is possible to manufacture uniform and highly active composite oxides! We have a rich supply of citric acid Ge aqueous solutions and more.

We would like to introduce our inorganic materials business conducted at our Fujisawa factory's manufacturing department. We utilize technologies such as "composite oxide manufacturing technology" using organic acid salt methods, and "oxide fine particle technology" capable of grinding down to the nano level using bead mills and ball mills. The aqueous solutions and gels processed at our company have a wide range of applications, including plating solutions, trace additives, and coating agents. We are also capable of handling other metal elements and composite metals. 【Product Examples】 ■ Aqueous Solutions, Gels - Magnesium Acetate Aqueous Solution - Germanium Citrate Aqueous Solution ■ Carbonates - Yttrium Carbonate - Dysprosium Carbonate *For more details, please refer to the PDF materials or feel free to contact us.

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Tohoku University Technology: Method for producing Proton-containing oxides : T21-224

Tohoku University Technology: Method for producing Proton-containing oxides : T21-224

Expand the variety of proton-containing ceramics.

In order to commercialize various ceramic electrochemical devices such as fuel cells, hydrogen production cells, hydrogen sensors, ammonia synthesis cells, etc., research and development of proton-conducting oxides has been actively carried out. However, high proton conductivity has been achieved only for oxides in a few type of crystal structures. This makes difficult to develop practical proton-conducting ceramics having mixed conductivity, chemical stability, and sinterability.  The present invention is an ion-exchange technique using a high-temperature acidic liquid. This technique enables easy conversion from a wide variety of aprotic oxides to oxides containing proton at a high level.

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Complex oxide "aluminum titanate filler"

Complex oxide "aluminum titanate filler"

We propose using aluminum titanate, a low thermal expansion material, as a filler.

Aluminum titanate is known as a low thermal expansion material and is used in the ceramics field. General powdered aluminum titanate is not suitable as a filler for resins or rubbers because it is a raw material for ceramics. Our company has developed a micro-filler of aluminum titanate with high whiteness and uniform particle size based on a precipitation method. It can be used as a low thermal expansion filler, high dielectric constant material, and ceramics raw material. In addition to the standard type, we also offer a decomposition suppression type that overcomes the ease of decomposition of aluminum titanate at high temperatures (900-1100°C). 【Features】 ■ High whiteness aluminum titanate synthesized based on a precipitation method ■ Suitable as a filler for resins and rubbers ■ Available in standard and thermal decomposition suppression types *We have prepared a PDF document that describes an example of aluminum titanate. If you need more detailed information, please feel free to contact us.

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