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"Particles & Transfer" Lab. 微粒子・移動現象

A Lab for Environment‑Conscious Processes and Student Learning. 環境配慮型プロセスと学びを重視する研究室

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Tag: Cellulose

Published) Cellulose Nanocrystals from Solid Seaweed Wastes 海藻廃棄物からナノサイズのセルロースを生み出す

This research demonstrates a sustainable approach to producing nanomaterials from waste, contributing to the circular economy and reducing environmental impact.  この研究は、廃棄物からナノ材料を生産する持続可能なアプローチを示し、循環型経済に貢献し、環境への影響を軽減します

SDOCT: A new method to visualize water in in biological tissue. バイオ組織中の水分の動態をイメージングする新技術

Imaging and quantitative analysis of water evaporation process using spectral-domain optical coherence tomography under illumination with two near-infrared wavelengths. 近赤外2波長照明下における分光領域光コヒーレンストモグラフィによる水の蒸発過程のイメージングと定量解析

Liquid transport with fluorescent particles. Finding “impurities” in layers. 蛍光粒子で液体輸送。層に隠された微量不純物も発見

葉または紙(セルロース)に流れてくる「暖かい」液体をみる。Seeing a “warm” liquid that flows into leaves or cellulose fibers.

Award/卒業生 Alumni: バナナの皮からのナノセルロースBananocell: Nanocellulose from Banana Peel

Gold Award in RISE2021: International Research and Innovation Symposium and Exposition (Hosted by Universiti Tun Hussein Onn Malaysia)

Nanocellulose from oil palm mesocarp fiber. アブラヤシ中皮繊維のナノセルロース化

低濃度のシュウ酸二水和物を組み合わせた分離技術。高い結晶化度。100nm以下の微粒子。Separation technology combined with low concentration of oxalic acid dihydrate. High crystallinity. Particle size is less than 100nm.

Top in 48-hour.人気記事

  • 東京農工大学 TUAT Tokyo U. of Agric. & Tech.
  • 大学院新設:先進学際科学(Grad. School of Advanced Interdisciplinary Science, AIS from 2025/4)
  • 研究室の学生ガイド Lab Guide for Students (B3)
  • ろうそくのすすは、水をはじく? それとも水になじむ?Can candle soot repel water—or absorb it?
  • Published) Exploring the Effects of Exposure of Ammonium Sulfate Particles on Tree Leaves 樹木の葉に対する硫酸アンモニウム粒子の曝露効果を探る
  • キトサンを用いたナノ粒子プライミング:持続可能な農業へ Chitosan-Based Nanoparticle Priming: To Sustainable Agriculture (by U. T. MARA, ITB, TUAT)
  • Concept
  • 活躍する卒業生Alumni
  • Prof. Kozo Kuchitsu 朽津 耕三 先生 1927-2021
  • Soot Enhances Water Uptake & Sugar Metabolism in Solanaceae Seeds 煤粒子がナス科種子の水分吸収と糖代謝を促進

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