Apply to SERVE Please fill out the application below to participate in SERVE. Before you begin, learn more about the projects.Name* First Last Email* Major*University*Select OneUniversity of North Carolina at CharlotteUniversity of Tennessee, KnoxvilleTop Project from UNCC*Select OneMitigating Frost Action with Engineered Water RepellencyIndoor Geospatial Localization Using AI and Scavenged Sensing DataAnalyzing the Benefits of a Haptic Shared Control Framework for Controlling a Semi-Automated Ground VehicleLabel-free MicroscopyHuman Physiology Modeling with BioGears of Hyper- and Hypo- Baric EnvironmentsQuantifying Protein-Protein Interactions of Chemokines Via Microscale ThermophoresisSecondary Project from UNCC*Select OneMitigating Frost Action with Engineered Water RepellencyIndoor Geospatial Localization Using AI and Scavenged Sensing DataAnalyzing the Benefits of a Haptic Shared Control Framework for Controlling a Semi-Automated Ground VehicleLabel-free MicroscopyHuman Physiology Modeling with BioGears of Hyper- and Hypo- Baric EnvironmentsQuantifying Protein-Protein Interactions of Chemokines Via Microscale ThermophoresisTertiary Project from UNCC*Select OneMitigating Frost Action with Engineered Water RepellencyIndoor Geospatial Localization Using AI and Scavenged Sensing DataAnalyzing the Benefits of a Haptic Shared Control Framework for Controlling a Semi-Automated Ground VehicleLabel-free MicroscopyHuman Physiology Modeling with BioGears of Hyper- and Hypo- Baric EnvironmentsQuantifying Protein-Protein Interactions of Chemokines Via Microscale ThermophoresisTop Project from UT*Select OneBeyond Lithium–Exploring Earth-Abundant Sodium Ion BatteriesAdversarial Machine Learning Applications in CybersecurityUltrafast Laser MicromachiningPredicting Supplier Lateness for Low-volume High-value Supply ChainsMicrobe Hunting on Ice–Interrogating the Molecular Underpinnings of Extremophile Microbe PotentialFibers and Composite ManufacturingStudies of Energy Storage and Conversion Devices and ComponentsFriends, Enemies, Frenemies? Microbial Interactions at the Ocean’s SurfaceComprehensive Strategies for Battery Thermal Management, Fast Charging, And Thermal Runaway PreventionTop Project from UT*Select OneBeyond Lithium–Exploring Earth-Abundant Sodium Ion BatteriesAdversarial Machine Learning Applications in CybersecurityUltrafast Laser MicromachiningPredicting Supplier Lateness for Low-volume High-value Supply ChainsMicrobe Hunting on Ice–Interrogating the Molecular Underpinnings of Extremophile Microbe PotentialFibers and Composite ManufacturingStudies of Energy Storage and Conversion Devices and ComponentsFriends, Enemies, Frenemies? Microbial Interactions at the Ocean’s SurfaceComprehensive Strategies for Battery Thermal Management, Fast Charging, And Thermal Runaway PreventionSecondary Project from UT*Select OneBeyond Lithium–Exploring Earth-Abundant Sodium Ion BatteriesAdversarial Machine Learning Applications in CybersecurityUltrafast Laser MicromachiningPredicting Supplier Lateness for Low-volume High-value Supply ChainsMicrobe Hunting on Ice–Interrogating the Molecular Underpinnings of Extremophile Microbe PotentialFibers and Composite ManufacturingStudies of Energy Storage and Conversion Devices and ComponentsFriends, Enemies, Frenemies? Microbial Interactions at the Ocean’s SurfaceComprehensive Strategies for Battery Thermal Management, Fast Charging, And Thermal Runaway PreventionTertiary Project from UT*Select OneBeyond Lithium–Exploring Earth-Abundant Sodium Ion BatteriesAdversarial Machine Learning Applications in CybersecurityUltrafast Laser MicromachiningPredicting Supplier Lateness for Low-volume High-value Supply ChainsMicrobe Hunting on Ice–Interrogating the Molecular Underpinnings of Extremophile Microbe PotentialFibers and Composite ManufacturingStudies of Energy Storage and Conversion Devices and ComponentsFriends, Enemies, Frenemies? Microbial Interactions at the Ocean’s SurfaceComprehensive Strategies for Battery Thermal Management, Fast Charging, And Thermal Runaway PreventionTop Project from UNCC*Select OneMitigating Frost Action with Engineered Water RepellencyIndoor Geospatial Localization Using AI and Scavenged Sensing DataAnalyzing the Benefits of a Haptic Shared Control Framework for Controlling a Semi-Automated Ground VehicleLabel-free MicroscopyHuman Physiology Modeling with BioGears of Hyper- and Hypo- Baric EnvironmentsQuantifying Protein-Protein Interactions of Chemokines Via Microscale ThermophoresisCOVID Contingency Planning*Many of the projects are designed to be carried out remotely due to potential future COVID restrictions. In the case in which research opportunities are restricted to an online format would you be willing to take place in the research remotely? Yes No This iframe contains the logic required to handle Ajax powered Gravity Forms.