Luca /rasei/ en POSE Fall 2024 Kickoff Workshop /rasei/2024/10/07/pose-fall-2024-kickoff-workshop POSE Fall 2024 Kickoff Workshop Daniel Morton Mon, 10/07/2024 - 16:43 Categories: Conference News Tags: Energy Impacts Kaffine Knauer Luca Marder POSE Parinandi Polymers Semiconductors Social, Institutional and Behavioral Analysis Toney Walters Daniel Morton

In early October of 2024, RASEI hosted the kickoff workshop for POSE, a new community being brought together to address some of the most critical challenges we face to do with plastics and polymers.

Polymer Solutions for the Environment, or POSE, seeks to establish a Center that will bring together expertise around the development of a circular polymer economy.

Plastics and polymers are critical materials in the modern age, forming the building blocks of everything from electronics to packaging, but this versatility comes with a cost, namely the waste and infiltration of the environment by microplastics.

This workshop brought together thought leaders in the polymer sector, from a cross section of academic, national lab and industrial organizations. The goal was to explore how best the POSE community can build a program that complements existing efforts in the field to drive the science and policy forward.

Three areas of focus were discussed, including the development of a circular polymer economy, the development of polymers that are needed for a just clean energy transition, and the integration of the science and technology research with policy, economics and social sciences.

It was a great meeting with more than 60 participants who came together to discuss ideas, present their research and approaches, and help shape the goals and directions of this nascent community. 

10/07/2024

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Mon, 07 Oct 2024 22:43:24 +0000 Daniel Morton 1163 at /rasei
Polymer Solutions for the Environment Fall 2024 Workshop /rasei/pose_fall2024 Polymer Solutions for the Environment Fall 2024 Workshop Anonymous (not verified) Mon, 09/09/2024 - 09:52 Categories: Conference Tags: Circular Economy Energy Applications Energy Impacts Kaffine Knauer Luca Marder POSE Parinandi Polymers Social, Institutional and Behavioral Analysis Toney Walters

Polymer Solutions for the Environment Fall 2024 Workshop

Monday October 7, 2024 | 9:00 AM - 4:30 PM

CU Boulder, East Campus, SEEC Building C120


Join us at this kick-off workshop for the Polymer Solutions for the Environment initiative. This will be held at CU Boulder, on the East Campus in the SEEC Building, Room C120 on Monday October 7, 2024. This one-day workshop brings together key collaborators and stakeholders from across the region, with a focus on discussing and developing a roadmap for POSE. Talks will have a spotlight on how POSE can join and amplify the existing regional community of researchers in tackling Colorado's most pressing sustainability challenges and exploring the role of polymer science in addressing these issues. We plan to define the goals, milestones, and target research areas for POSE.

Register now for this event and we will send along more details about agenda and logistics as they are confirmed. 

10/07/2024

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Mon, 09 Sep 2024 15:52:40 +0000 Anonymous 1040 at /rasei
New Frontiers Grant Program Successes for RASEI Fellows /rasei/2024/05/08/new-frontiers-grant-program-successes-rasei-fellows New Frontiers Grant Program Successes for RASEI Fellows Anonymous (not verified) Wed, 05/08/2024 - 14:48 Categories: News Tags: Bio-Catalysis Cameron Circular Economy Kaffine Luca Marder POSE Polymers Toney Daniel Morton

The CU Boulder New Frontiers Grant Program was launched in 2024. The program is designed to foster visionary groundbreaking, interdisciplinary research projects that have potential for high impact. This could include significant advances in knowledge, problem-solving or innovation that can build to new paradigms of understanding.

New Frontiers Grant Program

2024 Award Announcement

A central column of this program is to stimulate the development of new strengths at CU Boulder, driven by researchers thinking across disciplines and developing methods to work together to tackle complex and impactful research challenges.

Twenty-six teams submitted collaborative proposals were submitted to this program earlier this year and four projects were selected as winners of planning grants, two of which involved RASEI Fellows.

New Frontiers in Bio-Integrated Organic Computing & Low-Energy Innovative Carbon-based Manufacturing, or BIO-CLIC, led by RASEI Fellow Jeff Cameron and engaging a team across four CU Boulder departments and collaborators from NREL, will explore challenges in computational efficiency by investigating unconventional computing approaches that employ renewable sources and carbon fixation processes.

Polymers for a Sustainable Earth, or POSE, led by Wei Zhang from the Department of Chemistry and involving RASEI Fellows Dan Kaffine, Kat Knauer, Oana Luca, Seth Marder, Srinivas Parinandi, Mike Toney, and Terri Walters, brings together collaborators from six CU Boulder departments and NREL. POSE will foster a community to facilitate extramural research and funding at a scale to effectively address the issue of plastic pollution and new, sustainable methods to synthesize, reuse, and recycle polymers.

The four teams were chosen following 14 in-person pitches, where the teams outlined how their proposed work addresses important societal problems through adopting collaborative interdisciplinary approaches. The four teams will now use the next year to advance their proposals, build out the team and conduct initial investigations on how to take things forward. The teams will then compete for the single Launch Phase Grant of $200k, which will be awarded in June 2025.

Congratulations to the teams! We look forward to seeing your progress over the next year!

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Beyond n-dopants for organic semiconductors: use of bibenzo[d]imidazoles in UV-promoted dehalogenation reactions of organic halides /rasei/2023/12/14/beyond-n-dopants-organic-semiconductors-use-bibenzodimidazoles-uv-promoted-dehalogenation Beyond n-dopants for organic semiconductors: use of bibenzo[d]imidazoles in UV-promoted dehalogenation reactions of organic halides Anonymous (not verified) Thu, 12/14/2023 - 00:00 Categories: Publication Tags: Barlow Catalysis Energy Applications Luca Marder Nanoscience and Advanced Materials Rumbles BEILSTEIN JOURNAL OF ORGANIC CHEMISTRY, 2023, 19, 1912-1922 window.location.href = `https://doi.org/10.3762/bjoc.19.142`;

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Five ways CU Boulder researchers are working to address climate change /rasei/2023/11/28/five-ways-cu-boulder-researchers-are-working-address-climate-change Five ways CU Boulder researchers are working to address climate change Anonymous (not verified) Tue, 11/28/2023 - 00:00 Categories: News Tags: Luca Pao window.location.href = `/today/2023/11/27/5-ways-cu-boulder-researchers-are-working-address-climate-change`;

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Experts on COP28 /rasei/2023/11/28/experts-cop28 Experts on COP28 Anonymous (not verified) Tue, 11/28/2023 - 00:00 Categories: News Tags: Energy Impacts Energy Policy Luca Pao RASEI Community members are on hand to comment and connect over COP28 window.location.href = `/today/experts-cop28`;

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Tue, 28 Nov 2023 07:00:00 +0000 Anonymous 664 at /rasei
The future of recycling could one day mean dissolving plastic with electricity /rasei/2023/07/03/future-recycling-could-one-day-mean-dissolving-plastic-electricity The future of recycling could one day mean dissolving plastic with electricity Anonymous (not verified) Mon, 07/03/2023 - 00:00 Categories: Media Engagement News Publication Highlight Tags: Luca Marder Daniel Morton

Plastics have proven to be a revolutionary class of materials, that are durable, lightweight, water resistant and relatively inexpensive and easy to manufacture. It is hard to think of a modern piece of technology that doesn’t include some plastic components, from electronics to plastic bottles.

The same properties that make plastics useful are also behind the creation of a global waste crisis. 

CU Boulder Today Highlight


Media Highlights:


 

Plastics are polymers, long chains of molecules connecting together repeating links called monomers. By changing the chemical structure of the monomers, and the way in which they are connected together, the properties of the plastic can be engineered.

The majority of plastics are durable, which is great for an application (no one wants a leaky bottle of water), but not so great when you need to dispose of the application. Waste plastics can litter the environment for centuries. Larger pieces of plastic, such as bags, straws, bottles, packaging and many everyday objects, are called macroplastics. When present in the environment these pose a threat to wildlife through entanglement or consumption. The problem doesn’t stop there. Macroplastics can break down into smaller and smaller pieces, forming microplastics (<5 mm long), that are becoming increasingly ubiquitous, now found as pollutants in every part of our environment. While these plastics are being broken down into smaller pieces, on the chemical level the strong polymer chains remain strong, making them very hard to get rid of. It is estimated that on our current trajectory, by 2050 there could be more plastic in the ocean than fish (by weight; Ellen MacArthur Foundation, 2016).

Due to a combination of the strength of plastics and poor waste management systems, it is estimated that only 15 % of plastic waste is recycled. Most of the population operates on a linear economy model, a so-called “take-make-discard”, where raw materials are refined, used to manufacture products, which are then simply disposed of at the end of life. It is imperative that we move to a circular economy model for plastic use and recycling, and this work, by two teams of RASEI researchers, provides a step toward this transition.

Current plastic recycling methods are not up to the task. The most globally used method is called mechanical recycling. Plastics, which have been collected and separated, are mechanically broken down through a combination of chopping and grinding to produce a powder that is then melted and extruded into pellets ready for reheating and remolding. This process can only be done a few times. Melting can be destructive to the chemical structure and eventually, through repeated cycles, the plastic loses its strength.

RASEI Fellow Oana Luca and her team, in collaboration with the group of RASEI Fellow Seth Marder, have demonstrated an electrochemical approach to chemical recycling of polyethylene terephthalate (PET) plastics. PET is one of the most common plastics, used in clothing, food containers and bottles. In chemical recycling the work is done at the molecular level. By applying an electric current to a solution of the plastic and a redox catalyst (a molecule capable of capturing and then donating an electron), the polymer chain is broken in a selective manner to produce the original starting materials. Instead of getting a random mixture of chemical structures, as you would through heating in mechanical recycling, you get clean starting materials, which, after separation, can be used to produce new plastics. Using this technique there is no limit to the number of times plastics could be recycled. With the amount of plastic waste in the world, you would never have to use new starting materials!

While this approach holds great promise, there is a lot of work still to be done. The process shown in the lab could break down about 40 milligrams (about 1 /500 of a 16 Oz PET bottle), over a period of several hours.

“Although this is a great start, we believe that lots of work needs to be done to optimize the process as well as scale it up so it can eventually be applied on an industrial scale” said Phuc Pham, a doctoral student in the Luca Group.

The generality of this electrochemical approach offers an exciting opportunity. Different types of plastics could be put into the same chemical reactor and broken down into their respective starting materials, which could then be separated, which could significantly mitigate and streamline some of the waste collection and management issues.

“There are so many polymers and materials out there that people aren’t recycling at all. They’re not being collected. This is the beginning of many, many different kinds of chemistries” said Oana Luca.

This collaborative team, led by RASEI Fellow Oana Luca and including RASEI Director Seth Marder describes new approaches to PET recycling.

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Mon, 03 Jul 2023 06:00:00 +0000 Anonymous 741 at /rasei
Electricity-driven recycling of ester plastics using one-electron electro-organocatalysis /rasei/2023/07/03/electricity-driven-recycling-ester-plastics-using-one-electron-electro-organocatalysis Electricity-driven recycling of ester plastics using one-electron electro-organocatalysis Anonymous (not verified) Mon, 07/03/2023 - 00:00 Categories: Publication Tags: Barlow Catalysis Circular Economy Energy Applications Luca Marder Polymers CHEM CATALYSIS, 2023, 100675 window.location.href = `https://doi.org/10.1016/j.checat.2023.100675`;

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On the Temperature Sensitivity of Electrochemical Reaction Thermodynamics /rasei/2023/02/21/temperature-sensitivity-electrochemical-reaction-thermodynamics On the Temperature Sensitivity of Electrochemical Reaction Thermodynamics Anonymous (not verified) Tue, 02/21/2023 - 00:00 Categories: Publication Tags: Catalysis Energy Applications Luca Nanoscience and Advanced Materials ACS Phys. Chem. Au, 2023, 3, 3, 241-251 window.location.href = `https://doi.org/10.1021/acsphyschemau.2c00063`;

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This talk is trash (or is it?) /rasei/2023/02/13/talk-trash-or-it This talk is trash (or is it?) Anonymous (not verified) Mon, 02/13/2023 - 00:00 Categories: News Tags: Luca RASEI Fellow Oana Luca gave a talk at the 2022 CU Boulder Research & Innovation Week on her groups research toward innovative approaches using chemistry and electricity for the transformation of waste into useful materials. window.location.href = `/researchinnovation/research-development/faculty-development/rio-faculty-fellows/people/2022-community-talks`;

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Mon, 13 Feb 2023 07:00:00 +0000 Anonymous 254 at /rasei