Tag Archives: UBC

A Greener Approach to Developing Gels

Posted on November 30, 2016 by | 1 comment

UBC researcher’s serendipitous discovery could influence a greener method in the gel production industry.

Graduate student Lev Lewis of the Department of Chemistry at the University of British Columbia unexpectedly developed a simple method to form gels from cellulose nanocrystals.

First off, let’s break down what a cellulose nanocrystal (CNC) actually is. Cellulose is one of the most, if not the most abundant molecule produced by plants. It is responsible for the strength, structure, and form that allows you to hold a flower up by its stem. Next in order, a nanocrystal is basically a small crystal. Now how small are we talking? A nanocrystal, is a crystal smaller than 200 nanometers. To put this value in perspective, the diameter of a hair is roughly 100,000 nanometers across. In other words, these CNCs that Lev is working with are really really small crystals.

 

Graphic representing the molecular structure of CNCs which is composed of chains of individual cellulose molecules. Image courtesy of yalescientific.org via the Keten lab.

Graphic representing the molecular structure of CNCs which is composed of chains of individual cellulose molecules. Image courtesy of yalescientific.org via the Keten lab.

Lev found that by simply heating a CNC-water mixture under high pressure, this would yield the liquid to thicken into a gel.

Gel made using CNCs under high pressure and high temperature. Picture courtesy of Lev Lewis.

Gel made using CNCs under high pressure and high temperature. Picture courtesy of Lev Lewis.

He attributes this unexpected formation of gel to the desulfation of CNCs (or the removal of sulfur groups) which causes the crystals in the mixture to become unstable, thus forming a gel. The following audio clip describes the process of desulfation using a candy analogy we all can understand.

Constructing gels using this method is an attractive objective because it’s easy, it’s green, and it uses cellulose which is renewable resource. These gels are used in a wide variety of products including diapers, contact lenses, insulation, and tissue scaffolds to list a few. Perhaps one of the most possibly important applications of these gels is in drug delivery. Lev explains that gels could be used to treat cancer instead of the traditional method of chemotherapy. Due to the physical properties of a gel, we could inject them into the cancerous area of the body needing treatment and expect them to stay put. This allows treatment to be localized as opposed to chemotherapy that wreaks havoc on the entire body. The following video elaborates on CNCs and their applications.

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Currently, CNCs can be obtained from wood pulp. Seeing as the world is increasingly making the shift from paper to digital, there’s a lot of wood pulp, which is used to make paper, going to waste. Due to the ease and accessibility of materials of Lev’s method of gel formation, large scale industries that use gels in their products could adopt this method, thus providing an outlet for all the unused wood pulp being produced.

~Lindsey Belsher, Jennifer Jung, Uzair Ahmed

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Posted in Issues in Science, Outreach Project, Science Communicators

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Carry on Cycling

Posted on November 7, 2016 by | 2 comments

Living on the temperate west coast, many of us choose to bike or walk to work. However, since bikers and walkers often have to share the road with other vehicles, they are often exposed to air pollution. Many bikers wonder if they should replace their bike with a car or bus pass.

Air pollution can cause major health problems. Source: “Health Effects of Ozone and Particle Pollution” by American Lung Association. Used under Section 29 of the Copyright Act (Revised 2016)

Air pollution can cause major health problems. Source: “Health Effects of Ozone and Particle Pollution” by American Lung Association. Used under Section 29 of the Copyright Act (Revised 2016)

A new UBC study released two weeks ago measured the optimal speed to minimize the inhalation of air pollutants at the same time maximizing the activity’s health benefits. It found that cyclists riding from 12 to 20 kilometers per hour and pedestrians moving from two to six kilometers per hour minimize their exposure to air pollutants while gaining the most health benefits from their exercise. The study measured the “sweet spot” between riding quickly to lessen exposure to pollutants and riding slowly to lessen inhalation.

Although this speed will minimize the inhalation of air pollutants, it is also clear that road users should stay away from more heavily polluted roadways in industrial areas. Industrial areas often burn diesel, which produces the highest amount of air pollutants and soot. Once exposed to humans, soot irritates the eyes, nose, throat and lungs which are a root factor for many respiratory and cardiovascular illnesses. In the UK, premature death due to air pollution amounts to 40,000 people per year[1].

Cities' pollution by Particulate matter. Graph made using Excel 2016. Data collected by World Bank (http://siteresources.worldbank.org/DATASTATISTICS/Resources/table3_13.pdf).

Cities’ pollution by Particulate matter. Graph made using Excel 2016. Data collected by World Bank (http://siteresources.worldbank.org/DATASTATISTICS/Resources/table3_13.pdf).

However, cycling and walking in polluted areas may not be as bad as you might think. The benefits of cycling and walking, even in a heavily polluted city like Delhi, outweigh the disadvantages caused by breathing in the polluted air because physical inactivity itself is such a health hazard. Physical inactivity increases the risk of heart disease, type-2 diabetes, asthma, stroke and some types of cancers.

A real-life story of the benefits of commuting by cycling. Source: “Cycling to Work Scheme Saved My Life” by Toby Field– Youtube. Used under Section 29 of the Copyright Act (Revised 2016).

So keep on cycling and walking to work everyone! Personally, I was pleasantly surprised on the health benefits of cycling. Even though you may be exposing yourself to air pollutants, the benefits of exercise outweigh physical inactivity caused by sitting in traffic jams.

[1] https://www.theguardian.com/environment/2016/feb/22/indoor-and-outdoor-air-pollution-claiming-at-least-40000-uk-lives-a-year

Kelvin Au

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Posted in Biological Sciences, Science in the News

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Small Life with Big DATA

Posted on November 1, 2016 by | Leave a comment

The concept of big data has been around for years; most companies now are taking it more seriously than before. During company interviews, more and more questions related to big data appear. However, people realized that big data is important somehow, yet what actually it is and why it matters are the questions most people don’t know.

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What is Big Data?

http://acodez.in/bigdata-analytics-scope/

Picture from http://acodez.in/bigdata-analytics-scope/

The word “Big Data” has more meanings than actual big data, it does not only refer to a huge amount of data but it also refers to related technology. It is important to realize that big data comes in many shapes and from people’s daily lives. For example, the social media that men watched are different from what women watched. Everyday people upload thousands of hundreds of photos to Facebook or Instagram. Also, people share their lives with twitter and other social apps. Data is collected from our devices such as computers and smartphones, and it transmits information on what we do. Soon, however, that is just the beginning, 90% of the data in the world today was created in the last two years, and data will keep increasing exponentially.

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Above is the rate of growth of data since 2005 to 2015(forecast) – IDC research

Why is big data important?

Big data could be invaluable for business. It could provide a window into the lives of customers that people never previously imagined. To illustrate, based on the example above, when companies, such as Google or Youtube, collected what people were actually watching every day, they may be able to predict what people are like according to their special algorithms. One simple example is that Youtube put different advisements according to what media people are watching. In this case, people are more likely to click the link of advisements instead of just skipping it.

Another importance that came from big data is big data analytics. In the Youtube example, if they wrongly analytics the data, they might put wrong advisements that have nothing related to the audiences, in this case, no one would care about the advisements and they would just ignore it. By correctly using big data analysis, people are able to pick out the relevant parts from data and find the hidden patterns, correlations, and other insights. Based on what people found in dig data analysis, people are able to make faster, better decisions.

 

 

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