The ‘invisible’ cellulose coatings that mitigate surface transmission of pathogens (kills covid on door handles)

Research has shown that a thin cellulose film can inactivate the SARS-CoV-2 virus within minutes, inhibit the growth of bacteria including E. coli, and mitigate contact transfer of pathogens.

The coating consists of a thin film of cellulose fiber that is invisible to the , and is abrasion-resistant under dry conditions, making it suitable for use on high traffic objects such as door handles and handrails.

The coating was developed by scientific teams from the University of Birmingham, Cambridge University, and FiberLean Technologies, who worked on a project to formulate treatments for glass, metal or laminate surfaces that would deliver long-lasting protection against the COVID-19 virus.


a coating made from micro-fibrillated cellulose (MFC)


The COVID-19 virus is known to remain active for several days on surfaces such as plastic and stainless steel, but for only a few hours on newspaper.


The researchers found that the porous nature of the film plays a significant role: it accelerates the evaporation rate of liquid , and introduces an imbalanced osmotic pressure across bacteria membrane.

They then tested whether the coating could inhibit surface transmission of SARS-CoV-2. Here they found a three-fold reduction of infectivity when droplets containing the were left on the coating for 5 minutes, and, after 10 minutes, the infectivity fell to zero.


Professor Zhang commented, “The risk of surface transmission, as opposed to aerosol transmission, comes from large droplets which remain infective if they land on hard surfaces, where they can be transferred by touch. This surface coating technology uses sustainable materials and could potentially be used in conjunction with other antimicrobial actives to deliver a long-lasting and slow-release antimicrobial effect.”

The researchers confirmed the stability of the coating by mechanical scraping tests, where the showed no noticeable damage when dry, but easy removal from the surface when wetted, making it convenient and suitable for daily cleaning and disinfection practice.

The paper is published in the journal ACS Applied Materials & Interfaces.

More information: Shaojun Qi et al, Porous Cellulose Thin Films as Sustainable and Effective Antimicrobial Surface Coatings, ACS Applied Materials & Interfaces (2023). DOI: 10.1021/acsami.2c23251

Source: The ‘invisible’ cellulose coatings that mitigate surface transmission of pathogens

Robin Edgar

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