曇りの出ないPPEを設計するため、学生研究者は蓮の葉に注目(To design fog-free PPE, student researchers turn to lotus plant)

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2023-09-15 バッファロー大学(UB)

◆バッファロー大学歯学部の学生たちは、新型コロナウイルスパンデミックの間、3Dプリンターを使用して無料のフェイスシールドとコンフォートバンドを製作し、全国の歯科専門家に提供しました。曇り止めの問題を解決するため、蓮の葉の科学を活用し、カルナウバと蜜蝋の組み合わせを使用してシールドを開発しました。
◆学生たちはFDAの緊急使用許可を取得し、プロジェクトはBlueSkyとディーンズファンドの支援を受けました。この取り組みには20人以上の学生が参加し、医療専門家だけでなく一般の人々にも役立ちました。このプロジェクトは臨床医療に貢献し、学生にとっても貴重な学びの機会となりました。

<関連情報>

3Dプリント透明マスクおよびフェイスシールド用防曇液の耐久性および物理的特性評価 Durability and physical characterization of anti-fogging solution for 3D-printed clear masks and face shields

Succhay Gadhar, Shaina Chechang, Philip Sales, Praveen Arany
PeerJ Medical Science  Published:August 28, 2023
DOI:https://doi.org/10.7717/peerj-matsci.30

曇りの出ないPPEを設計するため、学生研究者は蓮の葉に注目(To design fog-free PPE, student researchers turn to lotus plant)

Abstract

Background
The COVID-19 pandemic brought forth the crucial roles of personal protective equipment (PPE) such as face masks and shields. Additive manufacturing with 3D printing enabled customization and generation of transparent PPEs. However, these devices were prone to condensation from normal breathing. This study was motivated to seek a safe, non-toxic, and durable anti-fogging solution.

Methods
We used additive 3D printing to generate the testing apparatus for contact angle, sliding angle, and surface contact testing. We examined several formulations of carnauba wax to beeswax in different solvents and spray-coated them on PETG transparent sheets to test contact and sliding angle, and transmittance. Further, the integrity of this surface following several disinfection methods such as detergent, isopropyl alcohol, or water alone with gauze, paper towels, and microfiber, along with disinfectant wipes, was assessed.

Results
The results indicate a 1:2 ratio of carnauba to beeswax in Acetone optimally generated a highly hydrophobic surface (contact angle 150.3 ± 2.1° and sliding angle 13.7 ± 2.1°) with maximal transmittance. The use of detergent for disinfection resulted in the complete removal of the anti-fogging coating, while isopropyl alcohol and gauze optimally maintained the integrity of the coated surface. Finally, the contact surface testing apparatus generated a light touch (5,000 N/m2) that demonstrated good integrity of the antifogging surface.

Conclusions
This study demonstrates that a simple natural wax hydrophobic formulation can serve as a safe, non-toxic, and sustainable anti-fogging coating for clear PPEs compared to several commercial solutions.

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