Dreaming of the perfect face mask?

Researchers at Hong Kong Polytechnic University have something for anyone who has ever dreamed of getting a face mask that offers protection from the finest of pollutant particles, according to a May 13, 2014 news item on phys.org,

Researchers at the Hong Kong Polytechnic University have developed a ground-breaking filter technology that guards against the finest pollutants in the air

Haze is usually composed of pollutants in the form of tiny suspended particles or fine mists/droplets emitted from vehicles, coal-burning power plants and factories. Continued exposure increases the risk of developing respiratory problems, heart diseases and lung cancer. Can we avoid the unhealthy air?

A simple face mask that can block out suspended particles has been developed by scientists from the Department of Mechanical Engineering at the Hong Kong Polytechnic University (PolyU). The project is led by Professor Wallace Woon-Fong Leung, a renowned filtration expert, who has spent his career understanding these invisible killers.

An article for Hong Kong Polytechnic University’s April 2014 issue of Technology Frontiers, which originated the news item, describes the research problem and Professor Leung’s proposed face mask in more detail,

In Hong Kong, suspended particles PM 10 and PM 2.5 are being monitored.  PM 10 refers to particles that are 10 microns (or micrometres) in size or smaller, whereas PM 2.5 measures 2.5 microns or smaller.  At the forefront of combating air pollution, Professor Leung targets ultra-fine pollutants that have yet been picked up by air quality monitors – particles measuring 1 micron or below, which he perceived to be a more important threat to human health.

“In my view, nano-aerosols (colloid of fine solid particles or liquid droplets of sub-micron to nano-sizes), such as diesel emissions, are the most lethal for three reasons.  First, they are in their abundance by number suspended in the air.  Second, they are too small to be filtered out using current technologies.  Third, they can pass easily through our lungs and work their way into our respiratory systems, and subsequently our vascular, nervous and lymphatic systems, doing the worst kind of harm.”

However, it would be difficult to breathe through the mask if it were required to block out nano-aerosols.  To make an effective filter that is highly breathable, a new filter that provides high filtration efficiency yet low air resistance (or low pressure drop) is required.

According to Professor Leung, pollutant particles get into our body in two ways – by the airflow carrying them and by the diffusion motion of these tiny particles.  As the particles are intercepted by the fibres of the mask, they are filtered out before reaching our lungs.

Fibres from natural or synthetic materials can be made into nanofibres around 1/500 of the diameter of a hair (about 0.1 mm) through nanotechnologies.  While nanofibres increase the surface area for nano-aerosol interception, they also incur larger air resistance.  Professor Leung’s new innovation aims to divide optimal amount of nanofibres into multiple layers separated by a permeable space, allowing plenty of room for air to pass through.

A conventional face mask can only block out about 25% of 0.3-micron nano-aerosols under standard test conditions.  Professor Leung said, “The multi-layer nanofibre mask can block out at least 80% of suspended nano-aerosols, even the ones smaller than 0.3 micron.  In the meantime, the wearer can breathe as comfortably as wearing a conventional face mask, making it superb for any outdoor occasions. Another option is to provide a nanofiber mask that has the same capture efficiency as conventional face mask, yet it is at least several times more breathable, which would be suitable for the working group.”

The new filtration technology has been well recognized.  Recently, Professor Leung and his team have won a Gold Medal and a Special Merit Award from the Romania Ministry of National Education at the 42nd International Exhibition of Inventions of Geneva held in Switzerland.

If the breakthrough is turned into tightly-fit surgical masks, they are just as effective against bacteria and viruses whose sizes are under 1 micron.  “In the future, medical professionals at the frontline can have stronger protection against deadly bacteria and viruses,” added Professor Leung.

I did not find any published research about this proposed face mask but there is a 2009 patent for a Multilayer nanofiber filter (US 8523971 B2), which lists the inventors as: Wallace Woon-Fong Leung and Chi Ho Hung and the original assignee as: The Hong Kong Polytechnic University.  The description of the materials in the patent closely resembles the description of the face mask materials.

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