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Revision as of 12:13, 30 September 2018
HELLO TVARITA I WANT YOU TO WRITE HERE. REMEMBER FOR EVERY NEW PICTURE YOU WANNA ADD. MAKE SURE YOU LOOK AT THE onclick="openSponsor(event, 'INSERT CORRECT NUMBER HERE')" THEN REMEMBER TO CHANGE THE DIV ID FOR THIS SPECIFIC WRITEUP
HELLO TVARITA I WANT YOU TO WRITE HERE. REMEMBER FOR EVERY NEW PICTURE YOU WANNA ADD. MAKE SURE YOU LOOK AT THE onclick="openSponsor(event, 'INSERT CORRECT NUMBER HERE')" THEN REMEMBER TO CHANGE THE DIV ID FOR THIS SPECIFIC WRITEUP
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Mr Holger Schlaefke is the Global Marketing Manager for Cellulosic Dyes at Huntsman Textiles Effects. With an impressive 21 years of experience in the dyeing and textile industry under his belt, he was well equipped for us to approach to find out more about what we should consider when designing a dye. It helped that Mr Schlaefke was warmly hospitable and accommodating, and extremely forthcoming with his knowledge about dyes.
The interview validated the need for more sustainable dyeing technologies to reduce the water pollution caused by the textile industry, and helped us affirm the key aspects of the problem. We also found the answers we sought! From an industry perspective, we now know that we should take into account how dye manufacturers need to be agile in response to the fashion industry’s ever-changing demands for the trendiest colours of the season, and the requirements our dye must fulfill to be considered eco-friendly, among others.
On the topic of natural versus sustainable dyes, we learned that the industry is keener on using synthetic dyes rather than natural dyes even though natural dyes are considered more environmentally friendly. This is because of the industry’s perception that firstly, synthetic dyes are superior to natural dyes in terms of wear resistance, secondly, producing synthetic dyes is less complicated and time consuming, and finally, companies producing synthetic dyes would have to completely change their machinery and infrastructure. This was why he foresees that it will be difficult to persuade textile producers and other major stakeholders to adopt new, potentially industry-disrupting solutions involving natural dyes.
We then shared our vision of producing natural dyes biosynthetically, to which he listed important challenges and obstacles to anticipate and overcome should we decide to continue on this path. Furthermore, he suggested that producing primary colours or brighter and bolder colours would be more impressive and would make our solution more attractive to our stakeholders.
At the end of the interview, Mr Holger encouraged us to never give up, and even jestingly reminded us that whatever we do, there was one thing we should never forget - to get a patent for our project!
Mr Gerald is the Global Manufacturing and Supply Chain Vice President of the DyStar Group. His current responsibilities range from managing global manufacturing footprint to supply chain management and even to corporate sustainability. With more than 20 years of experience in the dye industry under his belt, Mr. Gerald was able to impart pearls of wisdom gleaned from his many years of experience to our inquisitive young minds.
During our interview with Mr Gerald, he introduced to us the core tenets driving DyStar’s sustainability initiatives. Central to their thrust was a three-fold approach - reducing the production carbon footprint, ensuring consumer safety by keeping hazardous chemicals out of textiles and dyes used, and striving for biodegradable textiles and materials used for dyeing.
Mr Gerald validated our proposed design, pointing out that balancing environmental friendliness and commercial feasibility would no longer be unfeasible. Instead, co-opting sustainable practices in textile dyeing would become a competitive advantage; governmental agencies around the world are taking tougher actions against environmentally-unfriendly practices and pollution.
When discussing our potential solutions, he anticipated a critical hurdle we would have to overcome: our solution must attain significant yield for it to have a significant impact on the dye market. From his experience, past attempts at producing bio-engineered dyes have failed to become commercially-viable due to their failure to achieve significant yield. This is a potentially disastrous pitfall that we must seek to circumvent.
Besides our solution of producing microbial dyes, Mr Gerald warned us against the production of natural dyes using agricultural biomass as feedstock. The resulting competition between food production and natural dye production would indeed be very unfavourable for. In addition, disposal of used biomass would exacerbate the problem of resource wastage. Adding to his previous point, Mr Gerald taught us that it was imperative to evaluate the entire production process for its eco-friendliness, taking into account energy and water consumption, waste generation, to name a few.
An interesting twist to the end of the interview, Mr Gerald raised the possibility for the obsolescence of dyes in future, as textiles could coloured by virtue of its physical properties, or perhaps the invention of new materials that are not amenable to current dyeing methods. To tie the interview up, before continuing on our journey with synthetic biology, he encouraged us to evaluate bioengineered products around the world critically.
Mr Gerald is the Global Manufacturing and Supply Chain Vice President of the DyStar Group. His current responsibilities range from managing global manufacturing footprint to supply chain management and even to corporate sustainability. With more than 20 years of experience in the dye industry under his belt, Mr. Gerald was able to impart pearls of wisdom gleaned from his many years of experience to our inquisitive young minds.
During our interview with Mr Gerald, he introduced to us the core tenets driving DyStar’s sustainability initiatives. Central to their thrust was a three-fold approach - reducing the production carbon footprint, ensuring consumer safety by keeping hazardous chemicals out of textiles and dyes used, and striving for biodegradable textiles and materials used for dyeing.
Mr Gerald validated our proposed design, pointing out that balancing environmental friendliness and commercial feasibility would no longer be unfeasible. Instead, co-opting sustainable practices in textile dyeing would become a competitive advantage; governmental agencies around the world are taking tougher actions against environmentally-unfriendly practices and pollution.
When discussing our potential solutions, he anticipated a critical hurdle we would have to overcome: our solution must attain significant yield for it to have a significant impact on the dye market. From his experience, past attempts at producing bio-engineered dyes have failed to become commercially-viable due to their failure to achieve significant yield. This is a potentially disastrous pitfall that we must seek to circumvent.
Besides our solution of producing microbial dyes, Mr Gerald warned us against the production of natural dyes using agricultural biomass as feedstock. The resulting competition between food production and natural dye production would indeed be very unfavourable for. In addition, disposal of used biomass would exacerbate the problem of resource wastage. Adding to his previous point, Mr Gerald taught us that it was imperative to evaluate the entire production process for its eco-friendliness, taking into account energy and water consumption, waste generation, to name a few.
An interesting twist to the end of the interview, Mr Gerald raised the possibility for the obsolescence of dyes in future, as textiles could coloured by virtue of its physical properties, or perhaps the invention of new materials that are not amenable to current dyeing methods. To tie the interview up, before continuing on our journey with synthetic biology, he encouraged us to evaluate bioengineered products around the world critically.
OVERVIEW
Through outreach, NUSGEM aimed to raise more awareness about synthetic biology, iGEM and our project to the public focusing greatly on high school and university students. Although synthetic biology research and development is growing in Singapore, it is not being emphasized to students. We feel it is important that students are exposed to the basics of synthetic biology early on to help them open to newer career options.