Author Archive

Emerging Investigator Series – Maciek Kopeć

Maciek received his MEng degree in Polymer Chemistry and Technology from Cracow University of Technology in 2009, followed by a Ph.D. in Materials Science from Jagiellonian University and Polish Academy of Sciences in Krakow, Poland in 2014. During his Ph.D. he spent six months as a Fulbright Scholar at Carnegie Mellon University in Pittsburgh, PA working with Kris Matyjaszewski and Tomek Kowalewski, where he returned as a postdoc in 2014. From 2016 to 2018 he was a Research Fellow in the Materials Science and Technology of Polymers department at the University of Twente in Enschede, the Netherlands. Next, he spent three months at the University of Bristol in the UK before starting his current position as a Lecturer at the University of Bath in 2019. His research interests involve polymer gels/networks, degradable and reversible thermosets, controlled radical polymerisation, polymer topology, and polymer-derived carbon materials.

Read Maciek’s Emerging Investigator article, Strands vs. crosslinks: topology-dependent degradation and regelation of polyacrylate networks synthesised by RAFT polymerisation, DOI D3PY01008B.

 

Check out of interview with Maciek below:

 

How do you feel about Polymer Chemistry as a place to publish research on this topic?

I think it’s perfect. Polymer Chemistry is a go-to journal for any quality polymer research. This work felt particularly suitable as some of the Editors are pioneers in the field which guaranteed a thorough reviewing process.

What aspect of your work are you most excited about at the moment and what do you find most challenging about your research?

When I started my independent research, our group focused mostly on crosslinked polymer systems, i.e., gels and networks which I didn’t have much previous experience with. I am still fascinated by the very fundamental aspects of these materials such as the mechanism of crosslinking in various polymerisation techniques or network topology.

In your opinion, what are the most important questions to be asked/answered in this field of research?

I think for degradable/recyclable polymers it is finding a compromise between degradability and stability necessary for successful translation of these materials into applications. In case of polymer networks more generally, there is still a lot we don’t know about their complex internal structure and how exactly it affects their physical properties.

Can you share one piece of career-related advice or wisdom with other early career scientists?

Embrace teaching! It can be a great source of inspiration as well as a refreshing break from your research.

 

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Emerging Investigator Series – Zhanhua Wang

Zhanhua Wang received his doctorate in polymer chemistry and physics from Jilin University under the supervision of Professor Bai Yang in 2011. He worked as a postdoctoral fellow with Professor Marek Urban at the University of Southern Mississippi and Clemson University. He moved to Wageningen University as a postdoctoral researcher and worked with Professor Han Zuilhof until 2016. He is a professor at the Polymer Research Institute of Sichuan University. His scientific interests focus on bio-inspired anti-fouling coatings, covalent adaptive networks, self-healing and 3D printing of polymer materials.

Read Zhanhua’s Emerging Investigator article, Covalent adaptive networks with repairable, reprocessable, reconfigurable, recyclable, and re-adhesive (5R) performance via dynamic isocyanate chemistry, DOI D3PY00944K.

 

Check out our interview with Zhanhua below:

 

How do you feel about Polymer Chemistry as a place to publish research on this topic?

In my opinion, the topic about developing polymer materials with repairable, reprocessable, reconfigurable, recyclable, and re-adhesive (5R) performance via dynamic isocyanate chemistry quite fits the scope of the journal Polymer Chemistry since the dissociation mechanism on the isocyanate chemistry are discussed in detail in this review article.

What aspect of your work are you most excited about at the moment and what do you find most challenging about your research?

What I am most excited about my work is my current study can make a contribution to develop sustainable polymer materials. The most challenging aspect about my current research is how to realize the industrialization of 5R polymer materials.

In your opinion, what are the most important questions to be asked/answered in this field of research?

The most important questions to be asked/answered in this field of my research is how to balance the 5R performance and the service stability and mechanical performance.

Can you share one piece of career-related advice or wisdom with other early career scientists?

In my opinion, it would be very difficult to engage in a new field, but after persisting for a period of time, you can continuously learn and grow in this process, and will definitely become an expert in this field.

 

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Emerging Investigator Series – Elizabeth Elacqua

Beth received her B.S. Degree in Chemistry and Biology from Le Moyne College where her research focused on the total synthesis of natural products. She spent a year at SUNY-Environmental Science and Forestry at the Michael Szwarc Polymer Research Institute, then went to the University of Iowa. Beth worked in the research group of Leonard R. MacGillivray, and received her Ph.D. in 2012. After graduation, Beth started as a Postdoctoral Research Associate at New York University working alongside Marcus Weck at New York University from 2013 – 2017. In 2017, she joined the faculty at Penn State. The Elacqua group works at the interface of organic synthesis and polymer chemistry, focusing on grand challenges that lie at the interface of the two fields, and has been supported by the Doctoral New Investigator Award of the ACS and the Alfred P. Sloan Foundation, along with an NSF Center of Chemical Innovation and NSF CAREER award. Beth’s work has also been recognized by the ACS Division of Organic Chemistry’s Young Academic Investigator Award and the ACS Division of Polymeric Materials: Science and Engineering Early Stage Investigator Award, along with the Rustum and Della Roy Materials Innovation Award at Penn State.

 

Read Beth’s Emerging Investigator article, Synthesis and characterization of a ruthenium-containing copolymer for use as a photoredox catalyst, DOI D3PY00428G

 

Read our interview with Beth below:

 

How do you feel about Polymer Chemistry as a place to publish research on this topic?

Our group works on a diverse array of research that spans over polymer chemistry, organic synthesis, and catalysis. We often feel that the broad readership of Polymer Chemistry comprises scientists that are interested in all aspects of our group’s work which is often centered in fundamental polymer synthesis and a little less on applications. Thus, it is often a perfect place to submit papers that we feel are exciting from an overall polymer perspective and we know the readership will benefit from these findings.

Can you share one piece of career-related advice or wisdom with other early career scientists?

Honestly, all of our group’s main projects have been things that were not necessarily in my wheelhouse when I started academia. With that said, I think my advice would be to not shy away from learning new things that are exciting you and/or your group. New areas and directions can always be bolstered by collaborations and discussions with colleagues as well. It’s genuinely more fun to do the science that excites you and have that be boundless (within reason of course), then it is to feel limited by your background or exposure. 

 

Keep up to date with all of Beth’s research by going to her website or following her on X @beth_elacqua.

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Emerging Investigator Series – Junpeng Wang

Junpeng Wang received his B.S. in Chemistry from the University of Science and Technology of China in 2010 and his Ph.D. in Chemistry (advisor: Prof. Stephen Craig) from Duke University in 2015. He then worked with Prof. Luping Yu at the University of Chicago and Prof. Jeremiah Johnson at Massachusetts Institute of Technology as a Postdoc before joining the University of Akron as an Assistant Professor of Polymer Science in 2019. Currently, his research is focused on how molecular information like molecular structures and intermolecular and intramolecular interactions impact macroscopic material properties. In particular, Junpeng brought new insights into the design of sustainable polymers by applying physical organic chemistry and polymer mechanochemistry approaches.

Read Junpeng’s Emerging Investigator article, Bulk depolymerization of graft polymers based on trans-cyclobutane-fused cyclooctene, DOI D3PY00812F

 

Check out our interview with Junpeng below:

 

How do you feel about Polymer Chemistry as a place to publish research on this topic?

Polymer Chemistry is a journal that publishes solid work on innovative polymer chemistry research, and I am very pleased that our discovery on the bulk depolymerization of graft polymers can be published in Polymer Chemistry.  

What aspect of your work are you most excited about at the moment and what do you find most challenging about your research?

I am actively working on solutions for sustainable polymers, and I am most excited that by applying principles in physical organic chemistry, we can bring new insights into the design of sustainable polymers. Sustainable polymers need to be competitive in properties and cost in order to replace current polymers. While my training allows me to study structure-property relationships to optimize material properties, I find it challenging to also take into account the cost and scalability. This is a grand challenge for the entire field of sustainable polymers, and I enjoy tackling the challenges.  

In your opinion, what are the most important questions to be asked/answered in this field of research?

How can we design polymers that show material properties comparable to current ones while having the potential for industrial production?

Can you share one piece of career-related advice or wisdom with other early career scientists?

There are many tasks for an us early career scientist, and some of them might not be so enjoyable. We need to make sure that we spend time on the things you are most excited about everyday so that we stay motivated. 

 

Keep up with Junpeng’s research by checking out his website or following him on X @JPChem1.

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Call for papers: Polymers for Gene Delivery

Call for papers: Polymers for Gene Delivery

Guest Edited by Professors Sébastien Perrier, Todd Emrick, Marxa Figueiredo, Youqing Shen and Zhuxian Zhou

 

The Royal Society of Chemistry journal Polymer Chemistry has announced an open call to submit your research to a themed collection on Polymers for Gene Delivery.

 

This themed collection is Guest Edited by:

  • Professor Sébastien Perrier, University of Warwick
  • Professor Todd Emrick, University of Massachusetts Amherst
  • Professor Marxa Figueiredo, Purdue University
  • Professor Youqing Shen, Zhejiang University
  • Professor Zhuxian Zhou, Zhejiang University

 

Open for submissions until 31st January 2024

 

Polymers are increasingly being studied as gene delivery vectors, with research ranging from fundamental studies to therapeutic applications.  This themed collection will showcase the latest research in the field, with a focus on how the polymer’s design impacts functional properties and end use.  Submitted papers will have a focus on how innovative polymer chemistry supports exciting properties, biological activity and/or therapeutic applications. Our aim for this collection is to celebrate the progress and strong contribution of polymer science in this area, and to inspire new research.

Submissions to the journal should fit within the scope of Polymer Chemistry and will undergo the normal initial assessment and peer review processes in line with the journal’s high standards, managed by the journal editors. Please see the journal’s website for more information on the journal scope, standards, article types and author guidelines.

 

 

Submit your work to Polymer Chemistry now!

 

If you would like to contribute to this themed collection, you can submit your article directly through the journal’s online submission service. Please add a “note to the editor” in the submission form when uploading your files to say that this is a contribution to the Polymers for Gene Delivery themed collection. The Editorial Office reserves the right to check suitability of submissions in relation to the scope of the collection, and inclusion of accepted articles in the final themed collection is not guaranteed.

If you would like more information about the Polymers for Gene Delivery themed collection, please email Polymers-rsc@rsc.org.

We look forward to receiving your submissions and showcasing this important research in our collections.

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Emerging Investigator Series – Annalisa Chiappone

Annalisa Chiappone is Assistant Professor in Industrial Chemistry in the Department of Chemical Science and Geology of the University of Cagliari since October 2021. With a background on materials engineering, she obtained her Ph.D. in Materials Science from Politecnico di Torino in 2012 with a Thesis on photocured polymer electrolytes membranes reinforced with natural fibers for Li-ion batteries. Afterwards, she moved to the Italian Institute of Technology, Center for Sustainable Future Technologies. She worked on the development of functional polymeric materials for different applications including sensors and materials for energy and electronics. In 2015 she moved her interests towards the development of smart formulations for 3D printing. In 2018, she moved back to Politecnico di Torino as researcher to set up a platform dedicated to 3D printing specifically focused on light activated reactions. She has now moved her research to the University of Cagliari where she is exploiting the chemistry facilities to improve the study on polymeric materials for advanced applications. Her interest are focused on photocurable polymers and light-induced 3D printing, she recently focused on the modification of natural polymers to make them suitable for 3D printing.

 

Read Annalisa’s Emerging Investigator article, Vat 3D printing of full-alginate hydrogels via thiol–ene reactions towards tissue engineering applications, DOI D3PY00902E

 

Check out our interview with Annalisa below:

 

How do you feel about Polymer Chemistry as a place to publish research on this topic?

Polymer Chemistry, with its high quality and reliability, is undoubtedly a prestigious journal for polymer scientists, as all RSC journals are for chemists. Furthermore, Polymer Chemistry is a journal with a broad readership, interested in polymer synthesis but also with an eye on processing and applications, thus it is a perfect journal to showcase our work that aims at optimizing easy modification processes to make natural polymers suitable for 3D printing in view of their biomedical application.

What aspect of your work are you most excited about at the moment and what do you find most challenging about your research?

To be frank, since my academic studies, I have always been fascinated by polymer science and, still now, every new trial and every test that I do in my lab is something that excites me. So it’s hard to give a short answer to this question.

But, talking about my research, since 2015 I focused on the development of new materials for light-induced 3D printing. This processing technique is fascinating and can push the properties of materials to another level for their application in several fields. In the last years, we developed 3D printable polymers from natural sources, alginate is one example, to obtain 3D shaped hydrogels. The possibility to control the architecture of the hydrogels, maintaining the cytocompatibility of the natural polymers can help in making a step further in the biomedical field.

My new challenge is now the use of natural materials directly extracted from agri-food waste. Nature is a wiser chemist than us, and even waste can offer a large variety of molecules and polymers with fantastic properties, we just need to learn how to use to our best what we already have.

In your opinion, what are the most important questions to be asked/answered in this field of research?

The development of new material from waste is a topic that is gaining attention because we really need to enter in the mind-set of a greener chemistry. So, the question could be “How to do this in polymer chemistry?”. In my opinion the focus on waste valorization is a good start, but it’s not enough, I think that scientists must start looking at the impact of the whole processes that they develop, from extraction procedures to modification or synthesis and processing, each step must be as “green” as possible.

Can you share one piece of career-related advice or wisdom with other early career scientists?

What I have learned in the last years is the importance of good collaborations and good discussions with other scientists. Being able to listen to other’s ideas with a critical mind and discuss them, to build new projects, really helps in growing up as a scientist. And you never know, constructive ideas can come from somebody working in completely different environments and in other countries as well as from our office neighbour, you just need to communicate with an open mind.

Furthermore, it is also important to make the effort to talk with people working in different fields: even if sometimes it feels like talking in different languages, this can really open the eyes on different perspectives helping to have much better overview of your work.

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Emerging Investigator Series – Alex J. Plajer

Alex studied chemistry at the University of Heidelberg (B. Sc. 2015) and the University of Cambridge (M. Phil. 2016). As a Cambridge Trust Vice Chancellor scholar, he studied the supramolecular realm of main group chemistry under the supervision of Prof. D. S. Wright and received his PhD in 2020. After post-doctoral research supported by a Royal Commission for the Exhibition of 1851 research fellowship at the University of Oxford, he started his independent career at the Free University of Berlin in the fall of 2021 as a Liebig fellow. In 2024 he will move to the University of Bayreuth to take up an appointment as a tenure track Junior Professor. His work is concerned with the development of synthetic methodologies for new functional and degradable polymer backbones. Find out more about his work on Twitter/X @AJPlajer or on www.agplajer.com.

Read Alex’s open access Emerging Investigator article, Ring-opening terpolymerisation of phthalic thioanhydride with carbon dioxide and epoxides, DOI D3PY01022H.

 

Read our interview with Alex below:

 

How do you feel about Polymer Chemistry as a place to publish research on this topic?

Polymer Chemistry really stands out as a platform for publishing our research. One of its notable strengths lies in its expeditious publication process, ensuring that our findings reach the scientific community in a timely manner, which is vital for a young research group given the various age deadlines we face. We also found that having scientific editors who are experts in the field contributes to the peer-review process as they also make valuable scientific suggestions and never fail to pick reviewers that teach us how to improve the quality of our work.

 

What aspect of your work are you most excited about at the moment and what do you find most challenging about your research?

As a synthetic inorganic chemist by training who didn’t know what a DSC was until the last months of his Postdoc, I find great excitement in delving into the material properties of the polymers we prepare. It’s particularly intriguing to investigate how these properties evolve when transitioning to polymers incorporating heavier elements like sulfur offering a fresh perspective on the potential applications of our creations.

One of the hurdles I face as a young Principal Investigator is not doing much experimental work anymore. Nonetheless, I remain optimistic about the possibility of returning to the fume hood in the future (or as we say in German: “Die Hoffnung stirbt zuletzt”)!

 

Can you share one piece of career-related advice or wisdom with other early career scientists?

To be open to accept help and advice from everyone.

 

 

To find out more about his work, follow Alex on on Twitter/X @AJPlajer or check out his lab’s web page.

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Chalcogen Containing Polymers themed collection

We are very pleased to announce the Polymer Chemistry themed collection on Chalcogen Containing Polymers!

 

Chalcogen-based polymers have seen a resurgence in interest over the last several years. Due to the versatile and intriguing chemistry of sulfur, selenium and tellurium, polymers containing these elements have found diverse applications in polymer and material science. This collection includes studies on the synthesis and applications of these polymers, as well as fundamental theoretical and mechanistic studies. The Guest Editors for this collection are:

  • Professor Justin M. Chalker (Flinders University, Australia)
  • Professor Rongrong Hu (South China University of Technology, China)
  • Professor Jeffery Pyun (University of Arizona, U.S.A.)

In their Editorial, Guest Editors Justin M. Chalker, Rongrong Hu and Jeffrey Pyun focus on the synthesis, structures, and functions of a large variety of sulfur- and selenium-containing polymers, including sulfur-rich polymers prepared from inverse vulcanization or related approaches, polysulfites, polysulfones, poly(disulfide)s, polythioethers, polydithiocarbonates, polymonothiocarbonates, polythioamides, poly(thiazolidin-2-imine)s, and conjugated polythiophenes, which have been synthesized from readily available chalcogen-containing monomers, such as elemental sulfur, SO2, thiols, carbonyl sulfide, S/Se-containing vinyl monomers, cyclic thiocarbonates, diisocyanates and more.

 

The full collection can be found here and we have also highlighted a selection of articles below. We hope you enjoy these and the rest of the articles included in the collection.

 

Organosulfur polymer-based cathode materials for rechargeable batteries

Siyuan Ren, Pengfei Sang, Wei Guo and Yongzhu Fu

Polym. Chem., 2022, 13, 5676-5690

 

Fabrication of multi-responsive photonic crystals based on selenium-containing copolymers

Bin Xu, Xiaoliang Ma, Anqi Dai, Xiaofeng Pan, Xiangqiang Pan, Na Li and Jian Zhu

Polym. Chem., 2022, 13, 4290-4297

 

Molecular level understanding of the chalcogen atom effect on chalcogen-based polymers through electrostatic potential, non-covalent interactions, excited state behaviour, and radial distribution function

Asif Mahmood, Ahmad Irfan and Jin-Liang Wang

Polym. Chem., 2022, 13, 5993-6001

 

Economical synthesis of functional aromatic polythioamides from KOH-assisted multicomponent polymerizations of sulfur, aromatic diamines and dialdehydes

Yang Hu, Lihui Zhang, Zhuang Wang, Rongrong Hu and Ben Zhong Tang

Polym. Chem., 2023, 14, 2617-2623

 

A comparison of adhesive polysulfides initiated by garlic essential oil and elemental sulfur to create recyclable adhesives

Anthony E. Davis, Kyler B. Sayer and Courtney L. Jenkins

Polym. Chem., 2022, 13, 4634-4640

 

Enhancement of thermomechanical properties of sulfur-rich polymers by post-thermal treatment

Nara Han, Woongbi Cho, Jae Hyuk Hwang, Sukyoung Won, Dong-Gyun Kim and Jeong Jae Wie

Polym. Chem., 2023, 14, 943-951

 

Straightforward synthesis of aliphatic polydithiocarbonates from commercially available starting materials

Timo Sehn, Birgit Huber, Julian Fanelli and Hatice Mutlu 

Polym. Chem., 2022, 13, 5965-5973

 

Thiolactone chemistry, a versatile platform for macromolecular engineering

Nicolas Illy and Emma Mongkhoun 

Polym. Chem., 2022, 13, 4592-4614

 

Mechanical properties and structures under the deformation of thiophene copolymers with cyclic siloxane units

Takuya Matsumoto, Masaki Kashimoto, Chihiro Kubota, Shohei Horike, Kenji Ishida, Atsunori Mori and Takashi Nishino

Polym. Chem., 2022, 13, 5536-5544

 

Facile construction of functional poly(monothiocarbonate) copolymers under mild operating conditions

Thomas Habets, Fabiana Siragusa, Alejandro J. Müller, Quentin Grossman, Davide Ruffoni, Bruno Grignard and Christophe Detrembleur

Polym. Chem., 2022, 13, 3076-3090

 

All the articles in the collection are currently FREE to read until 17th November 2023!

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2024 Polymer Chemistry Lectureship – Open for nominations

Do you know an early-career researcher who deserves recognition for their contribution to the polymer chemistry field?

 

Polymer Chemistry is pleased to announce that nominations are now being accepted for its 2024 Lectureship award and will close on 31 January 2024. This annual award was established in 2015 to honour an early-stage career scientist who has made a significant contribution to the polymer field.

 

 

Eligibility

To be eligible for the lectureship, candidates should meet the following criteria:

  • Be an independent researcher – PhD students and postdoctoral research associates are not eligible
  • Be actively pursuing research within the polymer chemistry field, and have made a significant contribution to the field
  • Be at an early stage of their independent career (this should typically be within 12 years of attaining their doctorate or equivalent degree, but appropriate consideration will be given to those who have taken a career break, work in systems where their time period to independence may vary or who followed an alternative study path)
  • Have a publication as a corresponding author in Polymer Chemistry within the 3 years prior to the nomination deadline

 

How to nominate

Nominations must be made via email to polymers-rsc@rsc.org, and include the following:

  • The name, affiliation and contact details of the nominee, nominator and referee
  • An up-to-date CV of the nominee (1 – 3 A4 page maximum length)
  • A letter of recommendation from the nominator (500 words maximum length). The relationship between nominator and nominee should be stated in the letter.
  • A supporting letter of recommendation from a referee (500 words maximum length). This could be from the nominee’s academic mentor, PhD supervisor or postdoc for instance. The relationship between referee and nominee should be stated in the letter.
  • The nominator must confirm that to the best of their knowledge, their nominee’s professional standing is as such that there is no confirmed or potential impediment to them receiving the Lectureship

Please note:

  • Self-nomination is not permitted
  • The nominee must be aware that he/she has been nominated for this lectureship
  • Previous winners and current Polymer Chemistry Editorial Board members are not eligible
  • As part of the Royal Society of Chemistry, we have a responsibility to promote inclusivity and accessibility in order to improve diversity. Where possible, we encourage each nominator to consider nominating candidates of all genders, races, and backgrounds. Please see the RSC’s approach to Inclusion and Diversity.

 

Selection

  • All eligible nominated candidates will be assessed by a judging panel made up of the Polymer Chemistry Editorial Board, any Editorial Board members with a conflict of interest will be ineligible for the judging panel.
  • The judging panel will consider the following core criteria:
    • Excellence in research, as evidenced in reference to originality and impact
    • Quality of publications, patents or software
    • Innovation
    • Professional standing
    • Independence
    • Collaborations and teamwork
    • Evidence of promising potential
    • Other indicators of esteem indicated by the nominator
  • In any instance where multiple nominees are judged to be equally meritorious in relation to these core criteria, the judging panel will use information provided on the nominee’s broader contribution to the chemistry community as an additional criterion. Examples of this could include: involvement with RSC community activities, teaching or demonstrating, effective mentorship, service on boards, committees or panels, leadership in the scientific community, peer reviewing, promotion of diversity and inclusion, advocacy for chemistry, public engagement and outreach.

 

Previous winners

2023 – Miao Hong, Shanghai Institute of Organic Chemistry, China

2022 – Dominik Konkolewicz, Miami University, USA

2021 – Brett Fors, Cornell University, USA

2020 – Rachel O’Reilly, University of Birmingham, UK

2019 – Frederik Wurm, University of Twente, Netherlands

2018 – Cyrille Boyer, University of New South Wales, Australia

2017 – Julien Nicolas, Université Paris Sud, France

2016 – Feihe Huang, Zhejiang University, China

2015 – Richard Hoogenboom, Ghent University, Belgium

 

Nominations deadline: 31 January 2024

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Emerging Investigator Series – Mintu Porel

Dr. Mintu Porel is an Associate Professor in the Department of Chemistry and Environmental Sciences and Sustainable Engineering Center, Indian Institute of Technology Palakkad, Kerala, India. After receiving her M.Sc. from Indian Institute of Technology Delhi, India, she joined University of Miami, Florida, USA for the Ph.D. program. She completed her Ph.D. on Organic Supramolecular Photochemistry in 2012. Thereafter, Dr. Porel moved to Columbia University, New York, USA for her first postdoctoral work and Cornell University, New York, USA for her second postdoctoral work. In September 2017, Dr. Porel joined the Department of Chemistry, Indian Institute of Technology Palakkad as an Assistant Professor. Her research work is focused on the design and synthesis of novel classes of tuneable organic macromolecules and their applications in material and biomedical sciences.

Read Mintu’s open access Emerging Investigator article, Water soluble non-conjugated fluorescent polymers: aggregation induced emission, solid-state fluorescence, and sensor array applications, DOI D3PY00357D.

 

Read our interview with Mintu below:

 

How do you feel about Polymer Chemistry as a place to publish research on this topic?

Publishing in Polymer Chemistry has been a positive experience for us. The journal has a broad readership, which means that the published work can reach a wide audience of researchers and professionals in the field. Furthermore, Polymer Chemistry covers a wide range of topics within polymer science, so it is suitable for research across different aspects of polymer chemistry, including synthesis, characterization, properties and applications. This versatility makes it a suitable choice for publishing diverse interests within the polymer science and macromolecular chemistry.

What aspect of your work are you most excited about at the moment and what do you find most challenging about your research?

Our group is focussed on the design, synthesis, and applications of novel classes of organic macromolecules. In contrast to the small molecules, macromolecules have some unique properties that make them perfect fit for various applications which are otherwise challenging to meet. The immediate next goal is to get a hand on controlling the properties of the macromolecules which is crucial for making them an efficient candidate for a given application. The novelty of our system is that we can precisely control on how various functional groups are arranged in a macromolecule or polymer to produce its on-demand structure, characteristics, and function. Our team is ambitious to create a platform for the rapid and affordable synthesis of materials with tuneable properties for a wide range of applications, from material to biomedical research which is indeed a challenge.

In your opinion, what are the most important questions to be asked/answered in this field of research?

The most important question to be asked, in our opinion, is how polymers can be engineered for cutting-edge uses in applications like energy storage, packaging, biomaterials, and electronics, and how can the molecular weight, structure, and architecture of polymers be regulated.  Also, in order to satisfy various commercial and scientific demands, how can we create polymers with diverse functionalities, and understand its role in tuning properties at the macromolecular level and how that can be modulated to cater diverse applications in material and biomedical fields.

Can you share one piece of career-related advice or wisdom with other early career scientists?

Regardless of the specific field, researchers should embrace a growth mindset and consider challenges as opportunities. Also, building a solid professional network is important and has big impact on your professional development and opportunities.

 

Find more about Mintu’s research on her lab’s website

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