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草榴社区 Announces Winners of 2021 Innovation Awards

Mon, 04/19/2021 - 05:15pm | By: Van Arnold

A collage of all award winners

The University of 草榴社区 Mississippi鈥檚 Office of the Vice President for Research is proud to recognize its 2021 Innovation Award recipients, honoring faculty and graduate student researchers for accomplishments in creative and scholarly research, teaching, advising and mentoring and service during the past year.

Dr. Donald SaccoRESEARCH ADVOCATE

Dr. Donald Sacco

Chair, 草榴社区 Institutional Review Board

Associate Professor of Psychology

College of Education and Human Sciences

Dr. Sacco has been the chair of the 草榴社区 Institutional Review Board (IRB) since January 2019, after having served as a member for four years. Annually, the IRB reviews more than 600 projects to ensure they meet federal requirements for human subjects protections. As chair, it is his responsibility to review each protocol to both ensure researchers have addressed specific concerns raised by reviewers of their protocol and determine if additional concerns need to be addressed to ensure ethical compliance.

When 草榴社区 switched to the Cayuse online system for submission and review of IRB protocols, Dr. Sacco and Dr. Samuel were responsible for integrating Common Rule changes into the new system. The two provided training for researchers with respect to navigating this new IRB system as well as how Common Rule changes would need to be addressed in their research. Importantly, researchers were able to navigate these challenges without significant disruption to research productivity. Dr. Sacco was also responsible for revising 草榴社区鈥檚 IRB process for medical device review to ensure compliance with FDA requirements, which was critical to several grant-funded research projects.

Dr. Sacco also has worked with Dr. Bruton and the Office of the Vice President for Research during the COVID-19 pandemic to develop specific review procedures for face-to-face research that minimize disease transmission and comply with CDC guidelines.

 

Dr. Aaron J. FathACADEMIC PARTNERSHIP 

Dr. Aaron J. Fath

Assistant Teaching Professor

School of Psychology

College of Education and Human Sciences 

Dr. Fath points out that while taking the Center for Community Engagement鈥檚 service-learning seminar, he spoke to Ginny Sims, the Executive Director of 草榴社区 Pines Animal Shelter. She expressed that she wanted to obtain funding for counseling services for her employees because so many suffer from compassion fatigue, which is the physical and emotional exhaustion that arises from the constant demand to be compassionate and effective in helping those who are suffering and in need. If left untreated, the secondary traumatic stress that workers in helping professions experience can lead to more permanent conditions, such as vicarious trauma. At the time, he was teaching the capstone course Senior Seminar in Psychology, in which students write mock grant proposals. Dr. Fath realized they could apply these skills to obtain the funds that 草榴社区 Pines needed for counseling services.

It was too late to incorporate such an assignment into that semester鈥檚 course, so after the semester he re-designed his Senior Seminar course to include a service-learning component where students use the skills they develop from working on their mock grants to work together on a real grant to obtain funds for 草榴社区 Pines. As a faculty member in the School of Psychology, he approached the School鈥檚 Behavioral Health Clinic about meeting with himself and Ginny Sims so as to develop a partnership that could meet some of 草榴社区 Pines鈥 needs in the short term. This led to Operation Refuel, a 7-week series of psychoeducational and skill-building group counseling sessions to teach 草榴社区 Pines employees about early warning signs, symptoms, and coping skills for addressing compassion fatigue and vicarious trauma. These sessions were led by graduate students in the School of Psychology and supervised by School faculty, providing an opportunity for those graduate students to engage in service-learning for their practicum course. These sessions concluded in Fall 2020, and due to COVID-19, they were delivered in a telehealth format.

Due to the flexible nature of the telehealth format and the success of the initial 7- week program, this semester we were able to expand enrollment to animal shelters statewide, so now Pearl River County SPCA and Brookhaven Animal Rescue League are participating along with 草榴社区 Pines. He also partnered with 草榴社区 Pines on their new outreach effort called the Pet Resource Program that is providing resources to pet owners in the community to keep animals that would otherwise be surrendered in their homes. Dr. Fath developed a service-learning version of his Research Methods course, which he taught in Fall 2020, where students designed and executed a study to enable the launch of this program. They collected, handled, and analyzed data to determine the most common issues that leave pet owners unable to care for their pets, the frequencies of these issues, the average costs of interventions, etc.

 

Dr. Daniel CapronAPPLIED RESEARCH  

Dr. Daniel Capron

Associate Professor

Director, Anxiety & Trauma Research Program

School of Psychology

College of Education and Human Sciences

In his research, Dr. Capron has identified a malleable risk factor for suicidal ideation i.e., anxiety sensitivity cognitive concerns (ASCC). ASCC, defined as a fear of cognitive dyscontrol, is a risk factor for suicidal thoughts and behaviors. Individuals with ASCC have exaggerated threat responses to uncomfortable, but benign, mental sensations such as: depersonalization, derealization, racing thoughts, and mind blanking. ASCC are elevated across several disorders associated with military suicide, including mood disorders (e.g., major depressive disorder), anxiety disorders (e.g., panic attacks), trauma related-disorders (e.g., post-traumatic stress disorder), and substance use disorders (e.g., alcohol/illicit drug abuse). Fortunately, in contrast to many suicide risk factors, several studies Dr. Capron has undertaken show that ASCC can be a meliorated with a single-session intervention. Further, these single-session ASCC interventions can be completely computer delivered.

Most importantly, reducing ASCC via single-session, computer-delivered intervention leads to significant and durable (i.e., > one month) reductions in suicidal ideation. The initial computerized intervention designed specifically to reduce ASCC was named cognitive anxiety sensitivity treatment (CAST). CAST consisted of psychoeducation regarding the physical and psychological nature of stress and anxiety, as well as a brief interoceptive demonstration. CAST significantly reduced ASCC (30%) at one-month post-intervention as compared to a control group. A follow-up study supplemented CAST by adding an Interpretation Bias Modification (IBM)for ASCC.

The goal of his current work is to test a smartphone-delivered mobile IBM(M-IBM). Primarily, by creating a mobile phone delivered intervention that is less expensive, less stigmatizing, and more portable than traditional psychotherapy we can dramatically reduce suicide risk. According to a large recent survey of service members, 89.37% own a smartphone. Therefore, smartphone-based interventions present new possibilities for delivering military suicide interventions than even relatively recent technology (e.g., personal computers). This is especially important in the Mississippi (MS) National Guard because personnel are geographically dispersed and often live in rural areas without specialty behavioral health care. Further, suicide most often occurs while National Guard service members are not on military duty.16This significantly impairs the ability of unit leadership to recognize and arrange in-person emergency services for suicidal personnel. This clinical trial, which runs through March 2022 is currently under way, with 27 participants recruited thus far.

 

Dr. Olivia ClareCREATIVE RESEARCH 

Dr. Olivia Clare

Assistant Professor of English

School of Humanities

College of Arts & Sciences

Dr. Clare is the author of two published books 鈥 a book of poetry and a story collection 鈥 and a third book, a forthcoming novel. Her book of short stories, 鈥淒isasters in the First World,鈥 was published by Black Cat/Grove Atlantic in 2017. Her book of poems, 鈥淭he 26-Hour Day,鈥 was published by New Issues Poetry and Prose in 2015. My novel, 鈥淗ere Lies,鈥 is forthcoming from Grove Atlantic in early 2022. Her current projects include a second short story manuscript and a second novel. Her book of short stories, 鈥淒isasters in the First World,鈥 contains 13 stories. Each story explores the theme of both real and imagined 鈥渄isasters鈥 in characters鈥 lives. Some disasters are personal while other disasters are environmental. The book was also a finalist for the 2017 Texas Book Awards.

Her forthcoming novel, 鈥淗ere Lies,鈥 will be published by Grove Atlantic in early 2022. The novel takes place in a dystopian future, suffering from the effects of climate change. Dr. Clare鈥檚 book of poems, 鈥淭he 26-Hour Day,鈥 is comprised of lyric poems and two long poems that act as thematic bookends. The poems search for the ineffable and numinous on Earth 鈥 in objects, current and historical events, natural and psychological phenomena, and in particular personae, real or imagined. Many of the poems in the manuscript address the visual arts and music, looking for harmonic linkages between literature, painting, sculpture, music, and dance.

Her awards include a Rona Jaffe Foundation Writer鈥檚 Award (in fiction), the Olive B. O鈥機onnor Fellowship from Colgate University (in poetry), a Ruth Lilly Fellowship from the Poetry Foundation, and fellowships from the Tin House Writers' Workshop, the MacDowell Colony, Vermont Studio Center, and Djerassi Resident Artists Program. In 2014, she won an O. Henry Prize for my first published story, 鈥淧茅tur,鈥 which was originally published in Ecotone.

 

Dr. Alan M. ShillerLIFETIME RESEARCH 

Dr. Alan M. Shiller

Professor of Marine Science

Bennett Distinguished Professor in the Sciences

School of Ocean Science and Engineering

College of Arts and Sciences

Trace elements in natural waters, which are the primary focus of Dr. Shiller鈥檚 research, can be toxic at high concentrations, but are also often limiting micro-nutrients at low concentrations; and, they can be important indicators or tracers of various environmental processes (e.g., productivity; oxidation-reduction processes; inputs from sediments or dust). His work has involved studies of rivers, coastal and estuarine waters, and the open ocean. Dr. Shiller鈥檚 river work demonstrated the importance of a variety of processes in controlling trace metal concentrations. Work on the Mississippi River helped convince the US Geological Survey that their methods for sampling trace metals in rivers were contaminating their samples. Evidence of the impact of his river work can be found in Chapter 7.7 (鈥淭race elements in river water鈥) of the 2014 Treatise on Geochemistry (i.e., the most recent review of the subject):

Dr. Shiller鈥檚 coastal work has focused on the Louisiana Shelf and the Mississippi Bight/Sound, areas stressed by seasonal oxygen depletion (鈥渉ypoxia鈥). On the theoretical side, he outlined the role of mixing rates on chemical distributions and described how common interpretive approaches miss key processes affecting coastal chemical distributions. His work on metal distributions in our coastal systems shows the importance of vertical mixing which, in turn, plays a significant role in maintenance of hypoxia. Comparison of the delta and shelf regions of the Louisiana Shelf also suggested that this region could be used to contrast how coastal/estuarine systems work today versus during glacial periods. Most recently, his team used isotopic tracers to distinguish fresh water sources in our coastal waters and have also demonstrated that submarine groundwater discharge is an unrecognized contributor to nutrient fluxes and hypoxia in Mississippi coastal waters. This has important implications for managing polluting nutrient inputs to the coastal zone.

He received NSF & GoMRI funding to investigate the chemical effects of the Deepwater Horizon oil spill, resulting in publications on the distributions of toxic polycyclic aromatic hydrocarbons (PAH鈥檚)and other organics, on how nutrient distributions reflected the bloom of hydrocarbon-consuming microorganisms in deep waters near the wellhead, on perturbations in natural metal distributions by the oil, and on subsurface methane distributions near the wellhead. This research also led to the first report of biological uptake of rare earth elements in the marine environment in association with methane oxidation. This has implications for fluxes of methane (an important climate-warming 鈥淕reenhouse Gas鈥) from ocean to atmosphere during massive methane releases, both natural and anthropogenic. In the open ocean, he has focused on elements indicative of iron inputs to the ocean (e.g., gallium, rare earths, manganese). This is important because availability of iron limits plant productivity in wide areas of the ocean. His group has participated in cruises in the Atlantic, Pacific, and Arctic oceans studying this problem and he is a participant in the international GEOTRACES program, the largest marine chemistry program ever attempted. His team鈥檚 recent work has demonstrated the importance of continental margins on open ocean chemical distributions and also has helped refine our understanding of the amounts of Atlantic and Pacific-sourced waters in the Arctic Ocean, a key issue in the Arctic鈥檚 outsized influence on global climate. 

 

Dr. Monika GehlawatBASIC RESEARCH 

Dr. Monika Gehlawat

Associate Professor, English

Associate Director, School of Humanities

College of Arts and Sciences

Dr. Gehlawat has a longstanding interest and, now, reputation for working in the interdisciplinary mode. This orientation means that, while she is anchored in literary studies, her work always engages with other art forms and cultural studies, making it compatible with the goals of Vision 2020 and the direction of contemporary studies more generally. In the past two years, Dr. Gehlawat has published three peer-reviewed essays, a monograph, and has three forthcoming peer-reviewed essays, all of which exemplify her commitment to interdisciplinary studies.

Specifically, she studies postwar and contemporary American writers in relation to photography and paintings. Her monograph includes chapters that examine fiction, nonfiction, poetry, and illustrations which are framed by an engaged discussion of the German philosopher J眉rgen Habermas. In her research, alongside writers like Frank O鈥橦ara, Teju Cole, Ben Lerner, and Don Delillo, Dr. Gehlawat juxtaposes artists like Andy Warhol, Glenn Ligon, and Beauford Delaney. The latter two painters also inform her growing work in the field of Black Studies, specifically focusing on writers like James Baldwin and Teju Cole. Her next monograph will take up the study of ekphrastic contemporary novels. Her first book, 鈥淚n Defense of Dialogue: Reading Habermas and Postwar American Literature鈥 (2020) is a featured title in Routledge Press鈥檚 Research in American Literature and Culture series. It makes a timely argument about the enduring need to cultivate rational dialogue in a democratic society and considers how writers and artists including Frank O鈥橦ara, Grace Paley, Andy Warhol, and James Baldwin represent dialogue as a fundamental tool for self-development, emotional awareness, and political change.

Their writing takes up social concerns about feminism, racial justice, queer love, and consumer culture, demonstrating how speakers鈥 ability to express themselves sincerely and with vulnerability motivates mutual understanding and interpersonal care. The risks taken by characters and narrators in their work prove worthwhile, even when dialogue falters or fails, because they remind us that we cannot surrender our effort to communicate with others, no matter how challenging that might be.

External reviewers have referred to Dr. Gehlawat鈥檚 scholarship as 鈥渧ery high caliber,鈥 and 鈥渘otably substantial and of consistently high quality and originality.鈥 When he read her scholarship on his own writing and photography, the artist Teju Cole emailed Dr. Gehlawat to say that her 鈥渧ery careful and deeply intelligent article...had such an overwhelming quality of scholarly generosity that every paragraph reminded me of my own highest aspirations for my work.鈥

 

Dr. Xiaodan GuBASIC RESEARCH 

Dr. Xiaodan Gu

Nina Bell Suggs Endowed Assistant鈥疨rofessor

School of Polymer Science and Engineering

College of Arts & Sciences

Over the past four years, Dr. Gu has become a valuable mentor and top inspiring teacher and established an internationally recognized and well-funded research program on organic electronics. His efforts received many accolades from professional societies such as the America Chemical Society (ACS) and Oak Ridge Associated University (ORAU) for his potential as a leader in both research and education. Currently, he leads a large, vibrant research team consisting of 20 researchers, including one post-doctoral scholar, 11 graduate students, and eight undergraduate students, performing research on the next generation of flexible optoelectronic materials and devices to address the challenges in health care and green energy generation.

His team has made several important contributions to the field by illustrating the role of polymer dynamics in designing flexible electronics and developing the next generation X-ray and Neutron based tool to study soft matters. Although there is intense competition for federal grants, Dr. Gu secured several research grants as principal investigator (PI), including one funded ($675,000) by the Department of Energy (DOE), one Early Career award by fund by NSF ($594,000) and another regular NSF program ($304,000). He has worked closely with colleagues and contributed to multiple grants as Co-PI or senior personnel, attracting total funding exceeding $27 million, partnering with the Engineer Research and Development Center at Vicksburg, and Exxon Mobile Inc.

Dr. Gu has received several high prestigious external awards, including the Powe Junior faculty award from ORAU and the ACSPMSE Young Investigator award, a great honor to recognize a faculty in the early stage of his/her career. His team is prolific in publishing with more than 60 peer-reviewed journal articles in the past four years. He is routinely invited to give talks at national and international conferences such as ACS meetings and American Physical Society meetings. Dr. Gu emphasizes that he is looking forward to continuing his effort to bring a state-of-the-art research program to Mississippi to train and educate our next-generation scientists.

 

Dr. Daniel CapperMULTIDISCIPLINARY RESEARCH 

Dr. Daniel Capper

Professor of Religion

College of Arts and Sciences

Dr. Capper鈥檚 collaborative research features an impressive pioneering reach across disciplines, many publications in elite venues, concepts so innovative that they inform the United Nations about proper space policies, and an intentional outreach to non-academics for maximum impact. In religious studies he specializes in religion and science dialogue, which makes everything that he does richly multidisciplinary. Throughout his career Dr. Capper has celebrated this multidisciplinary pedigree by integrating materials from animal studies, environmental studies, and the space science of astrobiology in order to create the most erudite, engaged, and robust environmental ethics.

The dynamic potency of blazing this trail appears in personal ways, such as with my collaboration with the aerospace professor Dr. Wendy Whitman Cobb and the philosopher Dr. James Schwartz in founding and running the Space Studies Virtual Working Group, a diverse collection of international sociologists, engineers, artists, astronomers, disability scholars, and others, who together develop highest-level research about space exploration. He further joined with the philosopher Dr. Tony Milligan of King鈥檚 College London to compose visionary work about possible human dynamics within Mars settlements of the future.

From his own unparalleled ethnographic data, Dr. Capper also initiated important advances that impact multiple disciplines, not just his religious studies home. For instance, his book 鈥淩oaming Free like a Deer: Buddhism and the Natural World,鈥 appearing in the summer of 2021 through Cornell University Press, opens new vistas across disciplines that engage in environmental thinking by highlighting his original methodological tool of relational animism. Relational animism weaves together notions from philosophy, anthropology, animal studies, and botany to guide state-of-the-art environmental ethics in which natural entities become treated as nonhuman persons. Applicable within any discipline, this methodological contribution of his already has been so well-received that the Animals and Society Institute recently invited Dr. Capper to create a video on the subject for informational purposes on its web site.

 

Dr. Eric R. KingGRADUATE RESEARCH  

Eric R. King

Ph.D. Candidate

School of Polymer Science and Engineering

College of Arts and Sciences 

Throughout his tenure in the School of Polymer Science and Engineering (SPSE) Mr. King has been given the opportunity to study a diverse set of scientific inquiries spanning the breadth of materials science, organic chemistry, organometallic chemistry, catalysis, and polymer physics. These research efforts include exploration of next generation conjugated polymers and electronic materials, polymer characterization and instrument method development, degradable polymer materials, plastic waste utilization strategies, and fundamental synthetic methodology development. His dissertation work however is focused in the field of catalysis, specifically in the utilization of homogenous gold (Au) complexes in facilitating novel transformations toward the synthesis and modification of polymeric materials.

When Mr. King joined the Azoulay Research Group (ARG) in 2017 Au catalysis was effectively absent in polymer science and was a burgeoning effort in related scientific fields, moreover, there were no efforts or expertise in ARG toward utilizing this chemistry. As such, Mr. King (in addition to the two undergraduate students he mentored) took on the role of developing this research area, wherein he extensively reviewed the literature, optimized the chemistry, and developed this idea into a flourishing research thrust of ARG. This process denotes a 3-year effort, wherein over 1,700 individual reactions were performed and analyzed and the current limits of Au catalysis were extended to unprecedented levels of reactivity and application. Through this, Au complexes were employed to synthesize polymers comprising novel structures unattainable through other means under extremely mild conditions (room temperature, short reaction times, etc.) and with remarkable efficiency (over 3,000 successive reactions in four hours). The products of this work include two patents licensed through the university (US Patent No. 10711092 and US Patent App. 62/753,501).

Recently, Mr. King鈥檚 research efforts have shifted toward the global crisis of plastic accumulation and pollution through the development of processes to utilize post-consumer plastic waste. This denotes an ongoing effort to employ Au-mediated processes to modify waste polymer materials comprising aromatic content (polystyrene, polyethylene terephthalate, etc.) into value added materials, a process colloquially termed as polymer upcycling. This work forms the basis of a U.S. Department of Energy (DOE) young investigator award obtained by his advisor Dr. Jason Azoulay (which was cowritten by Mr. King). This work has met with much success, as the team has demonstrated the ability to utilize waste polystyrene (foam cups), polyethylene terephthalate (soda bottles), and other high-performance aromatic polymers in creating novel polymeric materials comprising heightened material properties.

 

Rachael FowlerGRADUATE RESEARCH 

Rachael Fowler

Creative Writing Doctoral Student

School of Humanities

College of Arts and Sciences

As part of Ms. Fowler鈥檚 PhD in Creative Writing (fiction), she completed a collection of short stories titled, 鈥淭he Constant Unfamiliar.鈥 This collection both marks her creative evolution and acts as a route into the larger network of writers, artists, and publishers. During the writing process of 鈥淭he Constant Unfamiliar,鈥 works from this collection have been published in international journals, have earned multiple awards and grants, and have been honored with a prestigious and competitive artist residency. 鈥淭he Constant Unfamiliar鈥 weaves together themes of family trauma, alienation, and desire. Her first-person, female narrators are often dealing with loss of some sort 鈥 loss of a parent to divorce, loss of a grandparent to death, loss of mental stability. The stories are told as fractured narratives, which use fragments of memories as opposed to conventional narrative styles.

This accumulation of broken or incomplete memories is an innovative way to portray Ms. Fowler鈥檚 narrators鈥 traumatic pasts as constant, truly insidious, parts of their present lives. Her work is highly influenced by writers such as Jenny Offill, Mary Robison, and Zadie Smith. She also pulls inspiration from the collage work of visual artist Joseph Cornell and painters such as Henri Matisse. Though I initially began writing, workshopping, and revising this collection in my PhD program, 鈥淭he Constant Unfamiliar鈥 has extended its reach far beyond 草榴社区 Miss鈥檚 campus. As proof of the strength of the work, multiple stories have been published in well-known journals.

In addition to publications, works from her collection have earned a Partners for the Arts Emerging Artist Award, been shortlisted for the preeminent Masters Review Summer Short Story Award, and named a finalist in the celebrated Glimmer Train Short Story Award for New Writers. Finally, as the ultimate signifier of 鈥淭he Constant Unfamiliar鈥檚鈥 quality, it has been awarded a Vermont Studio Center Artist Residency. This international residency program is highly competitive among both writers and visual artists with a recent acceptance rate around 15 percent. In addition to being accepted for a month-long summer residency, Ms. Fowler鈥檚 work was also allotted a Vermont Studio Center Artist Grant, an award based solely on the merit of her writing.

 

Song ZhangGRADUATE RESEARCH 

Song Zhang

Ph.D. Candidate

School of Polymer Science and Engineering

College of Arts & Sciences

Over the past five years, Mr. Zhang has made tremendous scientific contributions to the field of organic electronics. Recently, he was named as a Frank J. Padden Jr. Award finalist from the American Physical Society. This national award recognizes a graduate student for "Excellence in Polymer Physics Research. "Only seven finalists are chosen among over 300 graduate students from other top schools, such as Harvard, MIT, Stanford, and Columbia. My research projects focus on an emerging field related to plastic electronics. Over the past decades, organic semiconducting polymers have received tremendous attention in the next generation of flexible/wearable electronic devices, a rapidly growing field related to green energy generation, energy storage and health care. Compared with traditional semiconductors like silicon, these polymers are structurally tunable, large-area solution-processable, and mechanically flexible.

However, there are many fundamental knowledge gaps in the field that significantly hampers the design of novel polymers and the engineering of high-performance devices: Measurement of the mechanical properties for semiconducting polymer ultrathin-films (< 100 nm); competition between mechanical flexibility and electrical conductivity; understanding of the polymer ultrathin-film morphology; etc. His thesis projects have addressed several challenges mentioned above through both theoretical understandings and novel experimental techniques. Over the course of his doctoral work, Mr. Zhang has published over 30 papers, with five of them as the first author in top journals such as Advanced Functional Materials and Macromolecules. And his work has been cited by others over 370 times.

In his most recent publication, Mr. Zhang successfully revealed the chain alignment mechanism for semiconducting polymer ultrathin films through advanced synchrotron scattering techniques. For the first time, the different roles of polymer backbone and sidechain during the deformation process are presented. (Adv. Funct. Mater. Under Review (2021)). All of the progress is exceptional in pushing the knowledge boundary in his research field. His pioneer work resulted in numerous collaborations within the USA and internationally. The list features more than 10 institutions, including Stanford, UCLA, UCSD, Purdue University, and Peking University.