堆積した粒子は凝集せず、葉の構造に依存性がないことを確認した
The particles were deposited on the leaves and needles in the same manner, regardless of leaf structure.
Tag: Biomimetics
Does the leaf structure prevent the aerosol deposition?植物葉の構造はエアロゾルの沈着を妨げるのか? We learn an engineering thing.
Epicuticular “wax” crystals affect distribution of incoming aerosol particles on leaf surfaces. 気孔の機能を保持するために密に分布されたワックスは、微粒子の付着を防止する役割?
(Award/国際学会賞) 植物の気孔サイズの謎と新しい粒子浸透技術の発見: Solving the Mystery of Stomatal Size & Discovering a New Technology (ESPI) ElectroStatic Aerosol Pore Infiltration
Best Poster Award at 9th Asian Aerosol Conference. Insertion of colloidal particles in the pores of a honeycomb structure via an aerosol route (気中に分散した液中微粒子のハニカム型多孔質体細孔内への沈着)
Learning from Leaf Surfaces – Patterning Aerosols by Hydrophilicity Gradients. 植物の葉と帯電微粒子。親水性と表面電位が誘う選択的パターニング
植物の静電気現象にヒントを得た、百ナノメートルの解像度を持つマイクロ選択堆積技術。表面の親水性度または電位差(帯電量)分布を計測。 *A micro-selective deposition technology inspired by plant electrostatics, offering sub-micron resolution for measuring surface hydrophilicity or potential difference (equivalent to electric charge) distribution.
Charged Aerosols Behind the Leaf: Uncovering Deposition Mechanisms 🍃葉の裏側に沈着する帯電微粒子:堆積のメカニズム
電荷を帯びたサブミクロン粒子(空気中の微小粒子)が、葉面モデルとなる平板の“表面と裏面の両方”に付着する仕組みを世界で初めて実験的に解明しました。Experimentally demonstrated, for the first time, that submicron charged aerosols can deposit on both the front and back surfaces of a leaf‑model plate.
"Particles & Transfer" Lab. 