Author: Rhonda Ward

Dr. Cato T. Laurencin to Receive the Kathryn C. Hach Award for Entrepreneurial Success from the American Chemical Society

Posted on by

From UConn Today

Cato LaurencinThe American Chemical Society (ACS) has selected University of Connecticut’s Dr. Cato T. Laurencin as the 2024 recipient of its Kathryn C. Hach Award for Entrepreneurial Success.

As the national awardee, Laurencin is recognized for his use of the transforming power of chemistry to improve people’s lives. The hallmark of this contribution is impact: positive impact on people’s lives and positive impact on the economy by creating jobs that produce a significant economic benefit.

Laurencin’s innovations in regenerative engineering and his impact on the fields of biomaterials, nanotechnology, and stem cell science have had an immeasurable impact. As the leading international figure in polymeric biomaterials chemistry and engineering, he has made not only extraordinary scientific contributions, but has contributed through innovation and invention.

In Connecticut, Laurencin was the lead faculty architect for Bioscience Connecticut. Start-up companies he has founded have led to products now on the market. He received the Connecticut Medal of Technology in recognition of his work in the state.

Nationally, Laurencin is a Fellow of the National Academy of Inventors, and the first surgeon elected to all 4 of the U.S. National Academies. He serves on the board of directors of the National Academy of Inventors and on the National Academy of Inventors Selection Committee.

He received the National Medal of Technology and Innovation, America’ highest recognition for technological achievement, from the President of the United States.  In service to our nation, he serves as Vice-Chair of the National Medal of Technology and Innovation Nomination and Evaluation Committee, appointed by both the Trump and Biden administrations.

Most recently, he received the Inventor of the Year Award presented to the world’s most outstanding recent inventors from the Intellectual Property Owners Education Foundation (IPOEF). The IPOEF’s board of directors voted unanimously for him, recognizing his impact on biomaterials, nanotechnology, stem cell science, and the field of regenerative engineering.

Wells Named CLAS Associate Dean for Life and Physical Sciences

Posted on by

From UConn Today

Barrett Wells, professor and former department head of physics, joins the College of Liberal Arts and Sciences as the new Associate Dean for Life and Physical Sciences. (Bri Diaz/UConn Photo)
Barrett Wells, professor and former department head of physics, joins the College of Liberal Arts and Sciences as the new Associate Dean for Life and Physical Sciences. (Bri Diaz/UConn Photo)

When Barrett Wells became head of the Department of Physics in 2018, he says his opinion of the department changed.

“It was such an interesting thing, to learn more about what all my colleagues were doing,” the condensed matter physicist says. “I always felt we had a good department but as I learned more details [on colleagues’ research], I thought, ‘Wow, we’re better than I thought we were.’”

Now as Wells, who goes by Barry, joins the College of Liberal Arts and Sciences as the new Associate Dean for Life and Physical Sciences, he expects he’ll experience that all over again.

“Of course, this will be different – broader, and much larger,” he notes. “But I’m looking forward to learning more broadly about all our science departments.”

Wells joined UConn in 1998, following positions at Boeing and Brookhaven National Laboratory. He became department head in 2018, where he met and worked with department heads across the CLAS Division of Life and Physical Sciences.

“Everybody’s grumbling about the same things, or they’re happy about the same things,” he jokes. “I’m hoping that sitting where I am, I can help keep the voices of the people in the departments centered in where we are going and what decisions we make.

“I want to get a clear understanding of what each unit believes their problems and strengths are, and the people involved.”

Wells will oversee the Division of Life and Physical Sciences, which comprises the Departments of Chemistry; Earth Sciences; Ecology and Evolutionary Biology; Geography; Marine Sciences; Molecular and Cell Biology; Mathematics; Physics; Physiology and Neurobiology; Psychological Sciences; Speech, Language, and Hearing Sciences; and Statistics.

“Barry is a thoughtful and experienced scientist and leader, and I’m very happy to have him,” says Ofer Harel, interim dean of the College. “His track record shows that he asks the right questions and really advocates for his faculty and staff.”

Among the unique challenges of the position, Wells says, is ensuring adequate space for laboratory research. He will work closely on these and other issues with Associate Dean for Research and Graduate Affairs Andrew Moiseff, who previously served in Wells’ role.

“Andy is a major part of the reason I decided to apply for this role,” says Wells. “He’s been wonderful to work with. It’s a little scary to try to live up to him.”

Wells says he wants to ensure people have access to resources for both interdisciplinary and disciplinary research. Research and teaching in the disciplines needs to be strong, he says, for interdisciplinary research to be successful.

As the University moves toward replacing its general education requirements – most of which are offered in CLAS – with a common curriculum, Wells anticipates that he and the other CLAS associate deans will work to ensure that the College continues to provide a diverse, liberal education to all UConn students.

“We all know we are trying to create and disseminate knowledge, and I’m looking forward to working with people who keep the core mission of the University in mind,” he says.

Inclusion is also very important to Wells, whose own home field of physics has traditionally lacked representation of women. Data also shows, he notes, that most women scientists have partners who are also scientists, which factors into where they end up making their academic home.

“People come from all over the world to work at UConn, and we have to make that a great choice,” he says. “We want to create situations that are really good for them.”

Although Wells says he has a steep learning curve to surmount, he has found the CLAS offices among the best to work with at the University. He hopes to contribute to the overall success of not just his division, but the College.

“My definition of success is that CLAS departments feel that they are running smoothly and that people are able to do their best work.”

Xiuling Lu Announced as AAPS Fellow

Posted on by

From UConn Today

Dr. Xiuling Lu has been named AAPS fellow.
Dr. Xiuling Lu

Xiuling Lu has attained the esteemed title of AAPS Fellow, a recognition of her steadfast commitment to pioneering research, marked by its unwavering excellence and innovation, and the transformative effects it has had on patients grappling with unmet medical needs.

An AAPS Fellow is an AAPS member who is recognized as a leader in the pharmaceutical field. Peers recognize Fellows for facing challenges head-on with creative solutions in the discovery, development or regulation of pharmaceuticals and biologics.

The status of Fellow denotes professional excellence and a sustained, positive impact to global health and to the AAPS Community. AAPS Fellows are encouraged to continue to actively contribute to their fields and to AAPS throughout their tenure.

Lu stands as a distinguished luminary in the realm of nanoparticle-based therapeutics and their corresponding product advancement. At UConn, her lab has successfully devised inventive image-guided therapeutic nanoparticle systems, surmounting considerable obstacles within the realm of cancer treatment. Lu’s contributions extend further to a profound comprehension of the challenges associated with designing therapeutic agents, enhancing the bedrock understanding of delivery and treatment barriers.

Lu’s engagement encompasses not only the translation of prospective therapeutics to clinical applications but also the commercialization of nanomedicines. Her resolute dedication to scientific advancement and her altruistic endeavors within the community have merited her a multitude of local and national accolades. Lu has served of Chair of the Faculty at the National Institute for Pharmaceutical Technology and Education, and presently holds the mantle of Associate Director at the Center for Pharmaceutical Processing Research, concurrently serving as a leader in the AAPS Nanotechnology Community.

Masha Aleksich Wins Top Poster Prize at ACS NERM 2023

Posted on by
Mariya "Masha" Aleksich
Mariya “Masha” Aleksich

Mariya “Masha” Aleksich won first place in the American Chemical Society’s (ACS) Northeast Regional Meeting 2023 (NERM) Graduate Student Poster competition for her presentation, Topological Engineering by Size and Steric Direction of Metal-Organic Chalcogenate (MOCha) Hybrid Assemblies.

A graduate student in Dr. Nate Hohman’s group, Masha’s research concentrates on optimizing synthesis of MOCHas for comprehensive characterization.

Masha holds a B.S. in chemistry from Texas A&M University (2020) where she focused on synthesis of chiral amino acid-based surfactants. She is a third-year graduate student in the Hohman Group. She also serves as V.P. and Treasurer of the Joint Safety Team in the Department of Chemistry.

IMS congratulates Masha on this impressive recognition.

 

EIRC Lab Mates Like Family

Posted on by

Kerry Lynn Davis-AmendolaKerry Lynn Davis-Amendola beautifully shares her experience as a current Ph.D. student in the Electrical Insulation Research Center (EIRC) paying special attention to the importance of her lab mates and the camaraderie that awaited her when she joined the lab.  The inspiring article, The Best Part of a PhD that No One Is Talking About, appears in the “Young Professionals” section of the July/August 2023 edition of the journal IEEE.

IMS Welcomes New Staff Members

Posted on by
Jesse David
Jesse David
Nicole Jagielo
Nicole Jagielo
Mustafa Yavuz
Mustafa Yavuz

The Institute of Materials Science (IMS) at UConn is pleased to announce the addition of three new staff members who will enhance the Institute’s research and outreach capabilities.

Jesse David joined IMS as Stock Room and Lab Safety Manager in March.  Jesse comes to IMS from within the University, having previously served as environmental health and safety coordinator for the Innovation Partnership Building (IPB). An analytical chemist interested in research and development, cannabis, and quality testing roles, Jesse brings a strong background in method validation and analysis on HPLC, UPLC, GC/MS, GC/FID. Jesse holds a B.S. in Chemistry from the University of South Florida and has held positions of increasing responsibility at alternative medicine company Trulieve in Tallahassee, Florida.  An avid environmentalist, Jesse has volunteered for environmental agencies including Coastal Cleanup in Tampa Bay, FL, and the Tampa Audubon Society.

Nicole Jagielo joins IMS as the new Grants and Contracts Assistant. Nicole will report directly to Christina Tamburro to support the post-award grant needs of IMS researchers. Nicole has extensive experience with payroll and HuskyBuy processing at UConn, having worked in several departments and centers across the university. She holds a bachelor’s degree from Rutgers University.

Dr. Mustafa Selman Yavuz joins IMS as the new clean room manager. He received his Ph.D. in Chemistry at UConn working with Dr. Greg Sotzing. He completed his postdoctoral work at Washington University with Dr. Younan Xia. Mustafa was formerly the R&D Director of 3BC Inc., a consultant, and Director at Biyotez Kimya Limited. Mustafa will be responsible for running the clean room and training researchers on the proper use of clean room equipment.

IMS is an advanced materials research institution providing superior graduate research education in the interdisciplinary fields of materials science and polymer science and offering materials-related technical outreach to Connecticut’s industries.

IMS Industrial Affiliates Program Hosts 2023 Annual Meeting

Posted on by
2023 Annual Meeting - Morning Session
The morning session was held in the Science 1 Active Learning Classroom.

On May 25, 2023, the Institute of Materials Science (IMS) Industrial Affiliates Program (IAP) held its first in-person annual meeting since the onset of the COVID-19 pandemic in 2020.

The meeting began with a welcome message by Dr. Hatice Bodugoz-Senturk, Associate Director of the IMS Industrial Affiliates Program, followed by remarks by Dr. Steven L. Suib, Director of IMS, and Dr. Paul Nahass, Director of the IMS Industrial Affiliates Program. Dr. Bryan Huey, Department Head of Materials Science and Engineering (MSE) gave an overview of the MSE department and its achievements; and Dr. Kelly Burke, Director of the IMS Polymer Program, discussed the latest developments in polymer science.

Dr. George Matheou presents
Dr. Georgios Matheou presents his research at the morning session of the 2003 Annual Meeting

The morning session featured three presentations by IMS faculty members from different departments. Dr. James “Nate” Hohman, Assistant Professor of Chemistry, talked about his research on experimental foundations for next-generation materials and interfaces, and how he uses big science, big data, and big AI to discover new materials for various applications. Dr. Georgios Matheou, Assistant Professor of Mechanical Engineering, presented his work on predictive modeling and simulation of multi-physics flows, and how he collaborates with industry partners in renewable energy, aerospace, and health care sectors. Dr. Vahid Morovati, Assistant Professor of Civil and Environmental Engineering, explained his theoretical framework to model the long-term mechanical behavior of elastomeric materials considering damage accumulation and degradation.

The luncheon session featured a keynote address by Dr. Anne D’Alleva, Provost and Executive Vice President for Academic Affairs, who shared her vision and goals for UConn’s academic excellence and innovation. She also highlighted the importance and impact of materials science and engineering in addressing the global challenges and opportunities in the 21st century. The luncheon concluded with closing remarks by Dr. Paul Nahass.

2023 Annual Meeting Luncheon 2
IMS Director Dr. Steven L. Suib addresses industry partners, faculty, and students at the 2023 Annual Meeting Luncheon

The meeting was attended by more than 100 participants from industry affiliates and external partners along with IMS faculty, students, and alumni. The meeting also showcased the annual Joint Poster Session by IMS Polymer Program and Materials Science and Engineering (MSE) students, demonstrating their projects and achievements in materials science and engineering.  Industry partners were also given tours of core laboratories in the Science 1 building, the new home to IMS.

The IMS Industrial Affiliates Program provides materials characterization services to its industry partners. The program also facilitates collaborations between IMS faculty and students and industry partners on research projects of mutual interest.

The Institute of Materials Science is an interdisciplinary research institution that supports over 100 faculty members from 15 departments across UConn’s schools and colleges. The institute offers advanced degrees in polymer science and materials science, as well as state-of-the-art research facilities for its students and faculty to conduct research that is changing the future of materials science.

Naba Karan Wins DoD DURIP Funding

Posted on by
Dr. Naba Karan
Dr. Naba Karan

The U.S. Department of Defense (DoD) awarded four UConn scientists with high-profile grants to fund the acquisition of technology to bolster their research capabilities.

The highly competitive Defense University Research Instrumentation Program (DURIP), offered by the Air Force Office of Scientific Research (AFOSR), the Army Research Office (ARO), and the Office of Naval Research (ONR), funds cutting-edge research projects with potential to assist national defense.

Lithium-ion (Li-ion) batteries are one of the most common rechargeable energy storage technologies on the market. As a rule, they are quite safe under normal operating conditions, powerful, and scalable, from smartphones to electric cars. But given the number of Li-ion batteries produced around the world, their relatively small failure rate has still resulted in some high-profile stories of Li-ion batteries going into thermal runaway – an event when a battery catches fire, explodes, and releases toxic gases.

IMS member Naba Karan, an assistant research professor at the Center for Clean Energy Engineering (C2E2) in the School of Engineering, isn’t surprised.

“You can think of them as bombs,” he says, noting the high quantity of chemical energy contained within Li-ion batteries. And he’s looking to blow them up—on purpose.

With funds from the Office of Naval Research, Karan is constructing a facility at UConn that will explode the batteries in a controlled environment to determine critical safety parameters needed for designing advanced engineering protocols to mitigate thermal runaway events. In a military context, this information will help operators of machinery that depend on these high-powered batteries, such as submarines, determine when internal battery temperatures are exceeding safety thresholds. Most crucially, it will allow them to avoid catastrophic failure by diverting some of this heat.

The equipment will be able to analyze thermal characteristics of all types of energy storage technologies, not only Li-Ion batteries. Since it will be one of the only such facilities in the northeast region, Karan anticipates a high degree of interest and collaboration from other universities and companies looking into studying the safety characteristics of existing and emerging battery chemistries.

IMS Welcomes Mihai “Mishu” Duduta

Posted on by
Dr. Mihai Duduta
Dr. Mihai Duduta’s research has the potential to change the future of robotics.

Mihai “Mishu” Duduta has joined the Department of Mechanical Engineering with an appointment in the Institute of Materials Science (IMS).  Having earned his B.S. from MIT, he completed his M.S. and Ph.D. at Harvard University.  Following the completion of his Ph.D., Duduta joined the faculty of the Department of Mechanical and Industrial Engineering at the University of Toronto as an assistant professor.  He is a recipient of the Banting Foundation Discovery Award for 2022 for his research on “Smart Micro-catheters Based on Electro-mechanical Artificial Muscles.”

At the heart of his research “Mishu” (as Duduta prefers to be called) is focused on the science of soft robotics, novel materials, and energy storage.  He seeks to “invent new ways to store energy and deliver power that bring new robotic capabilities.”

IMS News reached out to Dr. Duduta to welcome him and learn more about him and his research.

Your research focus includes novel materials, soft robotics, and energy storage.  All of these are at the cutting edge of future technology.  What led you to pursue this field of science?

I have always been fascinated by energy, and by materials that can act as transducers, effectively transforming one type of energy into another, for example chemical energy stored in covalent bonds of a fuel, to thermal energy, or heat by burning said fuel. I see Robotics as the next area of innovation for energy storage, conversion and harvesting.

You have said that in order for robots to interact more closely with people they must be more compliant, or flexible.  How can the combination of materials, soft robotics, and energy storage achieve this goal and what do you see as the future implications as the science advances?

As machines become smaller or softer, we’ll need to invent new materials and mechanisms for actuation, sensing and computation. The end goal is to replicate nature as closely as possible, in an engineered system. If we have artificial muscles that can effectively replace natural ones, and run as efficiently for long periods of time, we can radically change almost all segments of the economy: from healthcare, to agriculture, manufacturing and beyond.

We are happy to welcome you to UConn IMS.  How did you become interested in UConn and how will you contribute to student success, a key priority for the University?

UConn has a great location, outstanding students, talented faculty, and fantastic infrastructure.  My goal is to train students to be more capable scientists and engineers, but also to develop a strong grasp of how to communicate science effectively, as well as gain an understanding of where their work can bring societal value.