Gabriela Buccini, Ph.D., MSc, IBCLC, is an Assistant Professor of Social and Behavioral Health. Trained in Epidemiology, Public Health Maternal Child Nutrition, and Implementation Science. She applies mixed-methods research guided through the lens of Complex Adaptive Systems (CAS), Socioecological Model, and the Nurturing Care framework to investigate maternal and child health and nutrition, including breastfeeding & infant feeding, food insecurity, and early childhood development inequities. Dr. Buccini’s academic training is focused on epidemiology, mixed methods, and implementation science methods. Her research experience spans the fields of maternal-child health and nutrition focusing on vulnerable populations in low-income settings. She has an ongoing NIH/NICHD grant to understand the pathways for scaling up evidence-based early childhood and nutrition programs.
Chad Cross
Dr. Cross is trained as a multidisciplinary scientist. He received is PhD in Ecological Sciences (focus in Quantitative Ecology and Statistics) from Old Dominion University in Norfolk Virginia. He additionally holds several master’s degrees: Computational & Applied Mathematics/Statistics (Old Dominion University), Medical Entomology & Nematology (University of Florida), and Counseling (University of Nevada, Las Vegas). His undergraduate training was at Purdue University, where he earned two bachelor’s degrees, one in biological sciences and the other in wildlife science. Dr. Cross has several active areas of research. These include: (1) Public Health: Investigations in population health related to chronic and infectious diseases, with special emphasis on quantitative methodology and use of large databases; (2) Epidemiology & Biostatistics: Applications of statistics and epidemiological principles to problems in the health sciences – for example clinical trials, multivariate models, and population sampling strategies; (3) Medical Entomology & Parasitology: Applied research and field work in arthropod-borne and parasitic diseases, including population-based estimation of disease burden and the intersection of medical entomology and forensic science; (4) Quantitative Ecology: Applications of statistics to problems in the environmental and ecological sciences – for example Bayesian models for estimating avian fatality around wind turbines and mark-recapture sampling; and (5) Psychometrics: Applications of statistics to problems in the psychological sciences – for example randomized controlled trials for interventions and pattern recognition for finding clusters of patients with shared pathology.
Merryn Cole
Dr. Cole’s research interests focus on the relationship between spatial thinking and STEM (Science, Technology, Engineering, and Mathematics) content as well as the ways in which teachers understand and implement project-based instruction and the impact of implementation on students’ understanding of STEM content. Other research interests include the content understanding and self-efficacy of practitioners of science communication and/or science outreach and the impacts on their audiences.
Tim Grigsby
Dr. Tim Grigsby is an Assistant Professor in the Department of Social and Behavioral Health. He completed his PhD in Preventive Medicine (Health Behavior Research) from the University of Southern California in 2016. His primary research interests are on the health effects of childhood trauma, the conceptualization, measurement, screening, and prevention of substance misuse, and identifying sources of health disparities in Hispanic/Latinx communities. His secondary interests are in the dissemination of novel research and analytic methods in public health research. His work explores the role of family- and community-based trauma exposure as risk factors for substance use, misuse, and related health outcomes in minority populations. Specifically, his work has identified adverse childhood experiences and perceived discrimination as important risk-factors of substance use, violence, and adverse health outcomes in minority populations.
Aude Picard
Dr. Aude Picard’s research investigates microbe-mineral interactions in the context of microbial physiology, biogeochemistry and astrobiology. The focus is on interactions between sulfate-reducing microorganisms (SRM), which are ubiquitous in anoxic sedimentary environments, and iron sulfide minerals. Microscopy and spectroscopy are used to 1) understand the properties and transformation pathways of iron sulfide minerals in anoxic environments and at the oxic-anoxic interface; 2) evaluate if the composition, morphology and mineralogy of biominerals is unique enough to serve as biosignatures for the search of life on other planets; and 3) assess the role of minerals on microbial activity and survival.
George Rhee
https://www.physics.unlv.edu/~grhee/
Manoj Sharma
Manoj Sharma, MBBS, Ph.D., MCHES® is a public health physician and educator with a medical degree from the University of Delhi and a doctorate in Preventive Medicine (Public Health) from The Ohio State University. He is also a Master Certified Health Education Specialist certified by the National Commission on Health Education Credentialing. He is currently a tenured Full Professor & Chair of the Social & Behavioral Health Department at the University of Nevada, Las Vegas in the School of Public Health. He is a prolific researcher and as of June 2023 had published 15 books, over 375 peer-reviewed research articles, and over 500 other publications (h-index 51, i-10 index over 200, and over 13,000 citations) and secured funding for over $10 million. He is ranked in the top one percentile of global scientists from 176 subfields by Elsevier.His research interests are in developing and evaluating theory-based health behavior change interventions, obesity prevention, stress-coping, community-based participatory research/evaluation, and integrative mind-body-spirit interventions.
Shengjie Zhai
Dr. Shengjie (Patrick) Zhai is an Assistant Professor of Electrical and Computer Engineering at the University of Nevada, Las Vegas. His research expertise is centered around five key areas: 1) Novel nanomaterials and patterning techniques for bioelectronics, optoelectronics, and photovoltaics, 2) Plasmonic-enhanced biosensors for single-molecule biomedical analysis, 3) Micro/Nanoelectromechanical systems (MEMS/NEMS), 4) Physiological organ biomimetic systems built on microfluidic chips and multi-external driven, scaffold-free engineered human tissue models, and 5) Artificial intelligence-assisted health assessment.
His research contributions include the development of micro-engineered multichannel organ-on-a-chip devices, AI-reinforced biomimetic biosensors, and novel biomaterials for low-noise, comfortable personal health wearable monitor bioelectronics (PHWMB). Dr. Zhai has authored over 20 peer-reviewed articles published in respected journals such as Advanced Optical Materials, ACS Applied Materials & Interfaces, and IEEE COMPSAC, and holds nine patents in his field.
Among his accolades, Dr. Zhai is a recipient of two National Science Foundation Fund Awards (2021, 2019), the Nevada Governor’s Office of Economic Development Fund Award (2020), the NASA-Colgate Funding Award (2019), and a Department of Energy Research Award (2022). He has also served as an editor for the Journal of Renewable Materials and as a contributing reviewer for the Royal Society of Chemistry Advances. His academic services extend to numerous other academic journals, and he has participated as a panelist for NSF, DOE, and NASA grant review processes.
Mohamed Trabia
Introduction
Dr. Mohamed Trabia is a Professor of Mechanical Engineering since 2000 at UNLV. His research interests include design and optimization of mechanical systems, characterization of material properties under dynamic loading, system identification and control of smart actuators. Dr. Trabia has been the author of more than 200 technical journal and conference papers. He was involved in multiple funded research projects. He is a Fellow of the American Society of Mechanical Engineers (ASME).
Carrie Tyler
Global climate change and human activities continue to create an urgent need for effective conservation and management strategies, which require a thorough understanding of how and why ecosystems respond to extreme structural changes. My research on marine invertebrate communities, therefore, includes two main themes: (1)investigations assessing the quality and biases of the fossil record and identifying the limits of its applicability to paleoecology and conservation, and (2) understanding processes driving ecosystem structure and functioning, and community response to past disturbances.