Ping Wang is a mathematics instructor at Great Basin College (GBC). She was the former director of Academic Success and Testing Center (ASC) at GBC. Ping Wang has worked in higher education for 12 years, and has always been passionate and dedicated to promoting students’ success, both academically and professionally. Currently, Ping Wang is working on her Ph.D. degree in Education at the University of Nevada, Reno, with the emphasis of educational information and technology.
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.
Ana de Bettencourt-Dias
Ana de Bettencourt-Dias received her ‘licenciatura’ (M.S. equivalent) in Technological Chemistry from the University of Lisbon in 1993, and her ‘Dr. rer. nat.’ (Ph.D. equivalent) in Inorganic Chemistry from the University of Cologne in 1997 with Prof. Thomas Kruck. In her graduate work, she isolated new titanium complexes as single source precursors for the chemical vapor deposition of TiN thin layers. She joined the group of Prof. Alan Balch at UC Davis in 1998 as a Gulbenkian postdoctoral fellow, where she studied the electrochemistry and structure of fullerenes and endohedral fullerenes.
In 2001 she joined the faculty at Syracuse University and started her work on luminescent lanthanide ion complexes. She moved to the University of Nevada, Reno as associate professor in 2007 and was promoted to professor in 2013. Her research centers on light-emitting compounds and coordination chemistry of the f block of the periodic table. She has published over 80 peer-reviewed manuscripts, several book chapters and invited editorials and edited two books in lanthanide photophysics. Her work has been funded by the Department of Energy, the National Science Foundation, the Petroleum Research Fund, the Department of Agriculture, the Brazilian National Council for Scientific and Technologic Development, and the Research Foundation of the State of São Paulo.
She served on the editorial advisory board for Inorganic Chemistry from 2013 to 2015, has been on the editorial advisory board for Comments on Inorganic Chemistry since 2016, is a managing member of the editorial board of the Journal of Rare Earths since 2014 and an associate editor for Inorganics since 2022. She has given over 200 oral presentations and was plenary or keynote speaker at several international conferences. She was program chair of the 2011 and conference chair of the 2014 Rare Earth Research Conference, organized the lanthanides and actinides symposia at the national meetings of the American Chemical Society, was the 2019 Chair of the Division of Inorganic Chemistry of the American Chemical Society and is co-program chair for the Division since 2022. She served as the Associate Vice President for Research at the University from 2015 to 2019. She returned to being a full-time faculty in July 2019, and is now the Susan Magee & Gary Clemons Professor of Chemistry. She received the 2006 Science & Technology Award of the Technology Alliance of Central New York, is a 2021 Fellow of the American Chemical Society and a 2022 Fellow of the American Association for the Advancement of Science. She has also been named a Foundation Professor and received the 2023 Outstanding Researcher Award from the University.
Derek Kauneckis
Dr. Derek Kauneckis is an affiliated associate research faculty in the Division of Earth and Ecosystem Sciences at the Desert Research Institute and associate professor of environmental studies at Ohio University. His research focuses on regional environmental governance, how people interact with environmental resources, and the emergence of cooperative institutions. He has examined behavioral and institutional components of resilience planning, climate policy networks, and the role of technology in the science/policy interface. His research has been published in the Journal of Coastal Management, Simulation & Gaming, Environmental Management, Studies in Comparative International Development, Journal of Water Resources Planning and Management, Bulletin of the American Meteorological Society, among others. Dr. Kauneckis currently serves as an Advisory Committee Member for the Department of Homeland Security’s Resilient Investment Planning and Development Working Group, and leads the Advisory Group on Professional Education for the American Society of Adaptation Professionals (ASAP). Dr. Kauneckis’ research has been sponsored by Fulbright, National Science Foundation (NSF), National Oceans and Atmospheric Administration (NOAA), Department of Agriculture (USDA), Federal Emergency Management Agency (FEMA) and National Renewable Energy Laboratory (NREL).
Gabrielle Boisrame
The majority of Dr. Boisrame’s research focuses on the interactions between wildfire, land cover, and water in mountain regions of the Western USA. Since 2013 she has been using a combination of fieldwork, remote sensing, and hydrological modeling to explore how managing natural wildfire in landscapes can improve water resources and forest health. Before coming to DRI, she worked as an environmental scientist for the Delta Stewardship Council, a California State Agency. In this position, she studied adaptive management strategies and calculated large-scale water budgets. Other research areas include agricultural water management, consumptive use calculations, restoration of wetlands and streams, and groundwater resource management.
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.
Lazaro Perez
My work seeks to identify and understand the coupling between physical heterogeneity and biochemical processes that control environmental biogeochemical reactions, energy, and mass transfer processes in the environment. We design and implement multiscale laboratory experiments visualization and numerical modeling.
My research is highly collaborative and multidisciplinary that provides domain expertise in scale biogeochemistry, reactive transport processes, multiphase flow systems, lab-to-field-scale hydrogeology, and computational geochemistry.
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.
Joshua Island
I lead the Nanoscale Physics Group in the Physics Dept. at UNLV. We are focused on studying low dimensional materials in electronic devices. We use a combination of low temperature and high frequency probes to study these devices and discern exotic phenomena that arise as a result of confinement and interactions. We are principally interested in how low temperature phases evolve under dimensionality reduction and when subjected to high magnetic fields and strong external electromagnetic drives.