Suggested Six Technologies for Top Page

Size-reduction of submicron agglomerated particles using an ultrasonic cleaner
超音波洗浄機によるサブミクロン凝集粒子の解粒
→ Demonstrates advanced particle manipulation and practical relevance for nanomaterials.

Method to reduce water-loss (moisture evaporation) with clay-based soil particle coatings
粘土系土壌粒子コーティングで水分蒸発を減らす技術
→ Strong environmental/agricultural application, appealing to sustainability themes.

Electrode design for resource-efficient magnetite particle production (in liquid)
磁鉄鉱粒子製造の省資源化のための（液体中）電極設計
→ Shows energy/resource efficiency, relevant for green chemistry and industrial processes.

Method for producing hydrophilic and hydrophobic films from the combustion of a single candle
一本のろうそく燃焼から親水性と疎水性膜の作製法
→ Unique and eye-catching concept, sparks curiosity about simple-to-complex material synthesis.

Deposition technique for submicron aerosol particles
難関とされたサブミクロン・エアロゾル粒子の堆積技術
→ Highlights aerosol science expertise and precision engineering.

Immobilizing suspended particles in water into 100 nm holes
水中浮遊粒子を100nmの穴に固定化させる技術
→ Represents advanced nanostructuring and microfluidic applications.