green chemistry

⚡ Green chemistry aims to anticipate toxicity and global climate change. Green chemistry is an area of chemistry that focuses on reducing pollution and building a more sustainable world. John explains, "What you may be surprised to learn is that if you look at the curriculum, if you look at the classes that a chemist takes from the very beginning to getting a Ph.D., very few, if any, universities have within that curriculum, any skills, any ability to predict, ‘Will this molecule be toxic? Will this molecule hurt the environment?’ Of the massive curriculum that is chemistry, what has been missing is that. So if you put a box around that and say, ‘What are the skills necessary to anticipate toxicity, global climate change, energy use, all the things that we define as sustainability issues, the molecular mechanisms necessary to address them?’ That is the body of what is called green chemistry."

⚡ Building a sustainable future needs to be collaborative. We're all in this together when it comes to building a sustainable future. John explains, "Over time, the two aspects of industry and industry have not become closer together but have actually become a little bit further apart. At the very time we need innovation, at the very time we need creativity to solve these sustainability problems, both aspects of the chemical enterprises are not coming together. So, in an ironic way, the closed-loop metaphor works against us. So this Mobius strip, interesting enough, if you look at it in a certain way, it looks like an infinity symbol, bringing and showing that we're all in this together, and this has to be a collaboration." 

⚡ Green chemistry gives us the tools to put sustainability into motion. The desire for sustainability is not enough to make the necessary change. We also need to have the right tools. John says, "You can't achieve sustainability goals just by wanting them. There's a skillset that is required in the lab that will then bring about the technologies and the materials to achieve those goals, and so the relationship between green chemistry. You can have all the regulations in the world, you can have all the desires in the world, but if you don't have the ability to meet those desires, you just got a lot of sad people, and so we need to have green chemistry to move from talking about this stuff to actually doing it."

Visit https://www.thermofisher.com/chemistry-podcast/ to access the extended video version of this episode and the episode summary sheet, which contains links to recent publications and additional content recommendations for our guest. You can also access the extended video version of this episode via our YouTube channel to hear, and see, more of the conversation!

Visit https://thermofisher.com/bctl to register for your free Bringing Chemistry to Life T-shirt. 

This is a big one. When one of the most influential chemists of a generation gives you a full hour of his time, you can say your chemistry podcast has made it!

This conversation with Paul Anastas (Yale University), the father of Green Chemistry, is an inspiration to think differently. He favors disrupting common rules and to stop accepting the status quo, given that the status quo is not sustainable.

The “green shift” towards sustainable processes in chemistry and engineering is the revolution than we can’t afford to miss. We do not need any more evidence. The silliness in the way we do things is in front of our eyes, we just need to be willing to look and see it. 

When we make 1000 kilograms of waste per kilograms or product, there is no future. When we keep producing, using, and discharging in a linear way, there is no future. When governments and private companies don’t embrace environmental responsibility as part of their performance metrics, there is no future.

Paul and his co-author Urvashi Bhatnagar have written The Sustainability Scorecard – How to Implement and Profit from Unexpected Solutions to outline the green chemistry principles that show the way to a sustainable future in chemistry. The pursuit of sustainability offers what they call “unexpected solutions;” leaps forwards that make new processes not only more sustainable, but also more efficient, cheaper, and more profitable. There are many great examples, with many more to come. 

Disrupt or be disrupted.

We read every email so please share your questions and feedback with us! 

• Email helloBCTL@thermofisher.com

About Your Host

Paolo Braiuca grew up in the North-East of Italy and holds a PhD in Pharmaceutical Sciences from nearby esteemed University of Trieste, Italy.  He developed expertise in biocatalysis during his years of post-doctoral research in Italy and the UK, where he co-founded a startup company. With this new venture, Paolo’s career shifted from R&D to business development, taking on roles in commercial, product management, and marketing. He has worked in the specialty chemicals, biotechnology, and pharmaceutical markets in Germany and the UK, where he presently resides.

He is currently the Director of Global Market Development in the Laboratory Chemicals Division  at Thermo Fisher Scientific™ which put him in the host chair of the Bringing Chemistry to Life podcast. A busy father of four, in what little free time he has, you’ll find him inventing electronic devices with the help of his loyal 3D-printer and soldering iron. And if you ask him, he’ll call himself a “maker” at heart. 

In Greiner Talks, charismatic scientist John Warner argues that chemists in the 21st century must drastically adapt their working methods. For him, it is particularly important to change the way chemistry is taught. We need to adapt to the challenges of today. Listen in and find out more!

What’s the background of a Noble Prize winner in chemistry, where are the next innovations in science, and how do you say “asymmetric organocatalysis”? Find out the answers on this week's episode as we chat with David MacMillan. 

From food production to industrial manufacturing, catalysts are all around us and play an outsized role in our lives. It’s estimated that 90% of all commercially produced chemical products are reliant on catalysts at some point in the manufacturing process. Many of these reactions aren’t sustainable. When studying as a post-doc at Harvard, David MacMillan had a eureka moment that led to groundbreaking research for green chemistry with his innovative organocatalysis.

David also works to catalyze human connections and accelerate scientific advancement through his work at the Princeton Catalysis Initiative. His insights into catalyzing cross-field collaboration are sure to inspire!

About David MacMillan
David MacMillan is a Nobel laureate, the James S. McDonnell Distinguished University Professor of Chemistry at Princeton University, and director of the Princeton Catalysis Initiative, which accelerates research collaboration between scholars at Princeton and industry. He conceptualized and pioneered the field of asymmetric organocatalysis, and in 2021, he was named a co-recipient of the Nobel Prize in Chemistry for his work in the field.

Along with numerous awards and commendations, Professor MacMillan has been elected a Fellow of the Royal Society and a member of the American Academy of Arts and Sciences.

Princeton Catalysis Initiative
PCI catalyzes collaborations between molecular, physical, biological, and social scientists who conduct high-impact research across disparate fields of study. By creating a new mechanism conducive to interdisciplinary research, PCI unites historically distinct areas to unleash new thinking, novel technologies, and ground-breaking applications.

Links: 

https://chemistry.princeton.edu/faculty/david-macmillan

https://pci.princeton.edu/

https://www.nobelprize.org/prizes/chemistry/2021/macmillan/facts/

https://en.wikipedia.org/wiki/Organocatalysis

Qualio Website

Previous episodes: https://www.qualio.com/from-lab-to-launch-podcast

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Music by keldez

Qualio website:
https://www.qualio.com/

Previous episodes:
https://www.qualio.com/from-lab-to-launch-podcast

Apply to be on the show:
https://forms.gle/uUH2YtCFxJHrVGeL8

Music by keldez

Visit https://thermofisher.com/bctl to register for your free Bringing Chemistry to Life T-shirt and https://www.alfa.com/en/chemistry-podcasts/ to access our episode summary sheet, which contains links to recent publications and additional content recommendations for our guest.

Sustainability is a trendy word that is often abused, especially when speaking about chemistry. Most commodity chemicals and their highly integrated value chains remain rooted in the oil feedstock. Until this changes, it will be difficult to move towards truly sustainable technologies. The use of renewable resources to produce valuable chemicals has promised a lot but delivered little so far. Dr. Kevin Barnett aims to change that, and his approach is radical and pragmatic at the same time. No real innovation is possible without commercial attractiveness. The obvious start is something that can be useful and commercially attractive right now. Something that can’t be easily obtained from the established value chain. That something is 1,5-pentanediol, a small but wondrous molecule.

After graduate school, Kevin took the entrepreneurial way and co-founded Pyran, a company focused on the production of useful commodity chemicals from renewable resources and already launched his first commercial product; 1,5-pentanediol of course! In this fascinating discussion, Paolo and Kevin discuss career choices, entrepreneurship as a credible option for chemistry graduates, the present and future of renewable resources, and the promise for a different chemistry of tomorrow.

We read every email so please share your questions and feedback with us! 

• Email helloBCTL@thermofisher.com

About Your Host

Paolo Braiuca grew up in the North-East of Italy and holds a PhD in Pharmaceutical Sciences from nearby esteemed University of Trieste, Italy.  He developed expertise in biocatalysis during his years of post-doctoral research in Italy and the UK, where he co-founded a startup company. With this new venture, Paolo’s career shifted from R&D to business development, taking on roles in commercial, product management, and marketing. He has worked in the specialty chemicals, biotechnology, and pharmaceutical markets in Germany and the UK, where he presently resides.

He is currently the Director of Global Market Development in the Laboratory Chemicals Division  at Thermo Fisher Scientific™ which put him in the host chair of the Bringing Chemistry to Life podcast. A busy father of four, in what little free time he has, you’ll find him inventing electronic devices with the help of his loyal 3D-printer and soldering iron. And if you ask him, he’ll call himself a “maker” at heart. 

Nicole Rawling, Executive Director and Co-Founder of Material Innovation Initiative (MII), an organization that fast tracks the development of next-generation sustainable materials, joins us for an upbeat conversation about plant-based materials and foods. Nicole parted with her upstanding career as a lawyer, to serve first as Director of International Engagement at The Good Food Institute, and then to accelerating innovation within the fashion sector by Co-Founding MII. In this episode Nicole shares her personal story, her view on the future of plant-based foods and plant-based materials, and why we are likely emerging into a clean industrial revolution now. 

Explore the Microfiber Challenge at conservationxlabs.com/microfibers

Learn more about the Materials Innovation Initiative at https://www.materialinnovation.org/our-work

Learn more about the Xploring Podcast & Conservation X Labs at conservationxlabs.com

May the #Xploring continue!

On this week’s The Sci-Files, your hosts Chelsie and Danny interview Seyed Mohammadreza Heidari.

Mohammad is a dual Ph.D. student in the Department of Civil and Environmental Engineering and the Department of Environmental Science and Policy. He has been involved in different research projects related to sustainable nanotechnology, green chemistry, biofuel, and solar energy. His Ph.D. dissertation is about how to synthesize fullerenes with less environmental impacts.

Professor Kroto discovered fullerenes in 1986 and received Nobel Prize in Chemistry in 1996 because of fullerene discovery. Since then, fullerenes have been used in various applications such as cancer therapy, HIV treatment, drug delivery, MRI, electrical sensors, lasers, etc. Since the global market of fullerene is exponentially increasing, quantifying the environmental impacts of existing fullerene production processes is necessary. Mohammad is using green chemistry, life cycle assessment, and ecotoxicity assessment to quantify carbon footprints and mitigate the adverse environmental effects of fullerene production. In another project, he is focusing on generating energy from municipal wastes. In this project, sludge from municipal wastewater treatment plants is used as a source of energy to produce methane in anaerobic digesters.

If you’re interested in talking about your MSU research on the radio or nominating a student, please email Chelsie and Danny at scifiles@impact89fm.org. Check The Sci-Files out on Twitter @SciFiles89FM and Facebook! 

Allie Rooke discovered the benefits of clean cosmetics and living a clean lifestyle when she was going through her fertility journey. She found a natural fertility clinic in Australia and that was the turning point in her journey to become a mother and she re-evaluated how she was living her life and the products that she was using. Allie explains how mainstream cosmetics can disrupt the endocrine system on our bodies and the effects that this can have on our health and wellbeing. She began with a clean cosmetics blog and eventually launched her own clean cosmetics consultancy business ‘My Clean Cosmetics’ to help expand the Asian market. We have such an interesting discussion about the K and J Beauty trends, zero waste, the effect on the planet and animal testing. We also explore the free gift trend and how many brands are beginning to move into the natural space. Allie gives us some top tips on clean cosmetics and recommends some great products and companies in the clean cosmetic world.

https://mycleancosmetics.com/

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Dr. Mary Kirchhoff is Executive Vice President of Scientific Advancement at the American Chemical Society and Director of the ACS Green Chemistry Institute. Her career has spanned a variety of experiences related to sustainability in chemistry, including working with the U.S. Environmental Protection Agency's green chemistry program and co-editing a book on Greener Approaches to Undergraduate Chemistry Experiments. In this episode, Dr. Kirchhoff shares insights and examples on the importance of green chemistry with two graduate student interviewers from the Center for Sustainable Nanotechnology.

Dr. Mary Kirchhoff, Executive Vice President of Scientific Advancement at ACS (left); green chemistry image by IO-images

Want more podcast episodes? You can find them all on our podcast page, or you can subscribe through Apple Podcasts or Stitcher.

Related links:

• Mary Kirchhoff
• The Chemistry is Always Greener... by Mary Kirchhoff, 2011
• ACS Green Chemistry Institute
• Environmental Protection Agency green chemistry resources
• AAAS Science & Technology Policy Fellowship
• Center for Sustainable Nanotechnology

Interviewee: Mary Kirchhoff

Interviewers: Stephanie Mitchell & Peter Clement

Producer/Host: Miriam Krause

Editor: Alicia McGeachy

Music: PC III and Dexter Britain