Texas Tech University

 


NSF I-Corps

All Teams

1/4

nsf i-corps teams

Spring 2017 Teams

NSF I-Corps Logo

 

Team: 1

Project Description - Active shooter gun detection sensor

Southwest I-Corps Logo

Team 2

Project Description – Device and methodology to detect embryo quality

NSF I-Corps Logo

 

Team 3

Project Description – Diagnostic tool for real-time internal body kinematics.

NSF I-Corps Logo

 

Team 4

Project Description – Device and methodology to improve the viability of collected semen.

NSF I-Corps Logo

 

Team 5

Project Description – Non-invasive device to improve the diagnosis and treatment of bruxism.

NSF I-Corps Logo

 

Team 6

Project Description – Virtual reality platform to allow stroke survivors to better communicate with their health care providers using an engaging visual narrative free of language.

NSF I-Corps Logo

 

Team 7

Project Description – Software-based model on Hurricane Resiliency Index to estimate the risk of natural hazards in specific areas.

NSF I-Corps Logo

 

Team 8

Project Description – Application of Whispering Gallery Mode (WGM) method to measure and alter low amplitude signals in biological systems.

NSF I-Corps Logo

 

Team 9

Project Description – Gyroscopic variable transmission design for wind turbines.

nsf i-corps teams

Summer 2017 Teams

NSF I-Corps Logo

 

Team 10

Project Description - Genetic Basis of Nanophthalmos

NSF I-Corps Logo

 

Team 11

Project Description - Water T2 for Diabetes Prevention

NSF I-Corps Logo

 

Team 12

Project Description - Next-generation vaccines against human respiratory pathogens such as influenza viruses, Streptococcus pneumoniae, nontypeable Haemophilus influenzae (NTHi) and agents important for biodefense, such as Bacillus anthracis, botulinum neurotoxins and Francisella tularensis.

NSF I-Corps Logo

 

Team 13

Project description - Virus Like Particle (VLP) platform for Zika vaccine and microneutralization assay.

NSF I-Corps Logo

 

Team 14

Project description - Simulated Radiation Detector for highly sensitive nuclear power facilities.

nsf i-corps teams

Fall 2017 Teams

Southwest I-Corps Logo

 

Team 15

Project description: Real-time diagnosis of various eye-related diseases using a smartphone.

Southwest I-Corps Logo

 

Team 16

Project description: A design for a surface coating to wind turbine manufacturers and aquatic exploration vehicles to increase the efficiency of their systems and reduce unwanted acoustic noise generation.

NSF I-Corps Logo

 

Team 17

Project description: Developed a test system to evaluate high-power semiconductor devices and insulating materials.

NSF I-Corps Logo

 

Team 18

Project description: An oil-free, air compressor/pump for refrigeration.

NSF I-Corps Logo

 

Team 19

Project description: Vis-X Dual Spec – a field-portable sensor for physicochemical analysis of soil, water, and vegetation

Southwest I-Corps Logo

 

Team 20

Project description: kHz AC-Supercap that is 100-1000 times smaller in size with 100 times smaller resistance comparing to aluminum electrolytic capacitors (AEC) in market.

NSF I-Corps Logo

 

Team 21

Project description: A Photovoltaic monitoring and control system with data storage and analysis at a module level for all types of photovoltaic systems

NSF I-Corps Logo

 

Team 22

Project description: College Streamline app aimed at students who wish to excel in college by saving time, money, and breaking social barriers.

NSF I-Corps Logo

 

Team 23

Project description: Telepractice platform for speech-language pathology or educational services

NSF I-Corps Logo

 

Team 24

Project description: A pioneer Inverter technology for power systems with high penetration of distributed renewable energy (solar, wind), electric vehicles and energy storage devices.

NSF I-Corps Logo

 

Team 25

Project description: Fabrics of Artificial Intelligence-informed Technology for Healing

NSF I-Corps Logo

 

Team 26

Project description: We provide customers in the energy, agriculture, and transportation sectors with extremely detailed forecasts using an ensemble of high-resolution weather models. At this time, the industry uses 12 km spacing.

NSF I-Corps Logo

 

Team 27

Project description: Gyroscopic Variable Transmission (GVT) is a power transmission tool to connect the slow-rotating wind turbine shaft to the fast rotating generator shaft without going through the standard gearbox.

NSF I-Corps Logo

 

Team 28

Project description: A renewable energy source for advanced space power generation and management.

NSF I-Corps Logo

 

Team 29

Project description: An advanced engineering modeling consulting service.

nsf i-corps teams

Spring 2018 Teams

NSF I-Corps Logo

 

Team 30

Project Description: An online platform for speech-language services. Therapists will use our games, assessments, flashcards, and interactive whiteboards to teach students.

Southwest I-Corps Logo

 

Team 31

Project Description: Developed a unique fluidic technology for biological assays in the model organism C. elegans. NemaLife is an all in one technology for culturing C. elegans and conducting assays.

NSF I-Corps Logo

 

Team 32

Project Description: NanoGrid in a Box: The system produces electrical power using fold-up solar panels. Battery storage and connectivity to additional NanoGrid's extends use time and power output.

NSF I-Corps Logo

 

Team 33

Project Description: Cementitious Composites Reinforced With Natural Fibers

NSF I-Corps Logo

 

Team 34

Project Description: We leverage our complementary expertise in Psychology and Computer Science to develop cyber-security solutions.

Southwest I-Corps Logo

 

Team 35

Project Description: Product will stabilize clay even in the presence of sulfate in the soil. It will improve the strength and reduce the shrink/swell behavior of such clays.

Southwest I-Corps Logo

 

Team 36

Project Description: Disease Diagnostic Imaging, DDI, specializes in the development and implementation of low-cost, non-invasive mobile diagnostic interventions for public health-related skin diseases. We specialize in Buruli Ulcer, a Neglected Tropical Disease, and Neglected Infection of Poverty.

Southwest I-Corps Logo

 

Team 37

Project Description: We offer a renewable distributed (small-scale) power generation technology.

Southwest I-Corps Logo

 

Team 38

Project Description: C-Safe is a simple reminder system that prevents children from suffering vehicular heatstroke. The product consists of a weight-detecting pad that adheres to the hard plastic frame of a child seat; a smartphone app, which connects to the pad via Bluetooth; and a key fob failsafe.

NSF I-Corps Logo

 

Team 39

Project Description: The gyroscopic variable transmission (GVT) is an alternative transmission system to the conventional gear-driven system commonly found in the wind energy sector. The transmission system connects the slow-rotating ( 20-50 rpm) wind turbine shaft to the fast-rotating (1000 – 3000 rpm) generator shaft.

Southwest I-Corps Logo

 

Team 40

Project Description: We offer a methodology to increase overall wind farm power production. Wake Control

NSF I-Corps Logo

 

Team 41

Project Description: We are developing programmable materials with intrinsic kinetic properties, towards the future which will be alive by material.

NSF I-Corps Logo

 

Team 42

Project Description: ALIEN is a machine learning logistical management software system.

NSF I-Corps Logo

 

Team 43

Project Description: A new antibiotic specifically targeted against Methicillin-resistant Staphylococcus aureus (MRSA)

NSF I-Corps Logo

 

Team 44

Project Description: Competency-focused approach ensures that the learners advance academically and are work-ready by the time they graduate.

NSF I-Corps Logo

 

Team 45

Project Description: Tyrosine phosphorylation regulates ERβ ubiquitination, protein turnover, and inhibition of breast cancer.

NSF I-Corps Logo

 

Team 46

Project Description: Computer Simulation of Organic and Biochemical Reactions

NSF I-Corps Logo

 

Team 47

Project Description: Chemical Dynamics Simulations of Energy Transfer, Surface-Induced Dissociation, Soft-Landing, and Reactive-Landing in Collisions of Protonated Peptide Ions with Organic Surfaces

NSF I-Corps Logo

 

Team 48

Project Description: Synthesizes biodegradable and biocompatible nanoparticles for targeted delivery of bioactive phytochemicals and other compounds to disease tissues or cells.

nsf i-corps teams

Fall 2018 Teams

NSF I-Corps Logo

 

Team 49

Project Description: A web-based application that provides evidence-based, structured, practical programming to help young female athletes prevent injury and enhance performance.

NSF I-Corps Logo

 

Team 50

Project Description: ProOmniFootball provides safe and practical training session and a platform to test strategies, save time. For Entertainment Centers: ProOmniFootball provides interactive gaming experience (Hyper Reality)

Southwest I-Corps Logo

 

Team 51

Project Description: Our product focused on helping obese people loss body weight.

NSF I-Corps Logo

 

Team 52

Project Description: Learning interfaces for analyzing chemical measurement data

NSF I-Corps Logo

 

Team 53

Project Description: Development of textiles containing organo-selenium covalently bound to the fibers to block bacterial attachment.

NSF I-Corps Logo

 

Team 54

Project Description: Our product will help produce reliable, clean energy in the Florida Keys via a hydrokinetic turbine.

Southwest I-Corps Logo

 

Team 55

Project Description: The proposed product uses cardiac motion as a new biometric authentication mechanism to secure system/facility access.

Southwest I-Corps Logo

 

Team 56

Project Description:The research product for which we are exploring the market potential is a method that can significantly enhance the efficiency of a common groundwater remediation reagent. 

NSF I-Corps Logo

 

Team 57

Project Description: Our team intends to develop a web based tool that can provide crash predictions tailored toward any roadway segment in the US

NSF I-Corps Logo

 

Team 58

Project Description: Capacitive deionization (CDI) is a simple water desalination technique wherein water flows between a pair of charged electrodes, and positive and negative ions are removed and stored in EDL

NSF I-Corps Logo

 

Team 59

Project Description: Lightning Import is an easy to use tool for eCommerce. With the help of our system you can import your products and keep them all up to date.

NSF I-Corps Logo

 

Team 60

Project Description: Software development mHealth Application

NSF I-Corps Logo

 

Team 61

Project Description: Innovative Smart Band & Smart App

NSF I-Corps Logo

 

Team 62

Project Description: We are a shared and on-demand economy in the food-experience industry.

NSF I-Corps Logo

 

Team 63

Project Description: Lots of biochemical analyses have to be in vitro, due impermeability of cell membrane. We are overcoming the barrier with nanoparticle-mediated biochemical agent delivery.

NSF I-Corps Logo

 

Team 64

Project Description: Hangio – a new way to hang your clothes. A new design for the hangar for the modern-day wardrobe.

nsf i-corps teams

Spring 2019 Teams

NSF I-Corps Logo

 

Team 65

Project Description: Developed a patent-pending method that improves the production and function of MHC molecules over current practices.

NSF I-Corps Logo

 

Team 66

Project Description: Repurposing a compound to treat Alzheimer's disease.

NSF I-Corps Logo

 

Team 67

Project Description: Affordable and long-lasting roofing for developing countries made out of recycled plastics.

NSF I-Corps Logo

 

Team 68

Project Description: Developing a modular membrane-based technology to treat water resulting from energy explorations.

NSF I-Corps Logo

 

Team 69

Project Description: Smart fitting rooms retail technology revolution utilizing a smart mirror.

NSF I-Corps Logo

 

Team 70

Project Description: Low-grade cotton-based materials, cotton module/bale wrapper, packaging bags, and concrete fillers

NSF I-Corps Logo

 

Team 71

Project Description: Cheaper, faster and better portable and renewable electricity

Southwest I-Corps Logo

 

Team 72

Project Description: Capsule that is swallowed and collects biological samples via the digestive tract.

NSF I-Corps Logo

 

Team 73

Project Description: Technology provides information about fiber length to the industry that they need to be more profitable.

NSF I-Corps Logo

 

Team 74

Project Description: Developed a label-free method of detecting circulating tumor cells (CTC) using digital in-line holography microscopy.

NSF I-Corps Logo

 

Team 75

Project Description: Gastro-tourism work promotes individual memorable tourists' experiences (MTEs).

NSF I-Corps Logo

 

Team 76

Project Description: Gyroscopic Variable Transmission (GVT) is a power transmission tool to connect the slow-rotating wind turbine shaft to the fast-rotating generator shaft without going through the standard gearbox.

NSF I-Corps Logo

 

Team 77

Project Description: Team Customizable Learned Academic Skill Sets (CLASS) is focused on rethinking the role of postsecondary learning in the workforce

NSF I-Corps Logo

 

Team 78

Project Description: UVC light bulb device is installed above public toilet seats