海外直播b站

Researchers have discovered that they can control the stickiness of adhesive bandages using ultrasound waves and bubbles. This breakthrough could lead to new advances in medical adhesives, especially in cases where adhesives are difficult to apply such as on wet skin.

Classified as: medical adhesives, stickiness, bandages, bioadhesives, Skin, ultrasound, Sound, bubbles, Jianyu Li, Zhenwei Ma
Published on: 12 Aug 2022

Scientists from 海外直播b站 develop stronger and tougher glass, inspired by the inner layer of mollusk shells. Instead of shattering upon impact, the new material has the resiliency of plastic and could be used to improve cell phone screens in the future, among other applications.

Classified as: glass, seashells, mollusk, strongest, toughest, unbreakable, Allen Ehrlicher, Ali Amini
Published on: 28 Sep 2021

Researchers at two Quebec universities are working together in hopes of developing a new vaccine that could prevent COVID-19 and similar outbreaks. Amine Kamen, a biomedical engineer at 海外直播b站 will be working with Denis Leclerc, a researcher from Laval University. Kamen's primary role in the research will be to generate antigens 鈥 toxins that urge the body to create antibodies in order to fight off disease.

Classified as: Amine Kamen, biomedical engineering
Published on: 9 Mar 2020

Research led by Dr Hossein Heris of the Department of Mechanical Engineering and Dr聽Jamal Daoud of the Department of聽Biomedical Engineering聽is featured on the cover of the journal Advanced Healthcare Materials. Their article聽describes the successful adhesion of聽human fibroblast cells to a scaffold biomaterial composed of hyaluronic acid and聽gelatin composite microgels.

Classified as: engineering research, Mongeau
Published on: 27 Jan 2016

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