Community Flood Risk Assessment from Rising/Surging Seas Project
Kevin Kupietz, Elizabeth City State University
Globally 634 million people, 10% of the world's population, live in coastal areas less than 10 meters above sea level. According to 2010 census data, 123 million people, 39% of the United States population, live in coastal counties with an estimated increase to this number by 8% in the 2020 census. As natural disasters have been seen to increase in frequency and severity in the past five years coupled with expected sea rises from climate change it is important that anyone involved with the safety and resiliency planning of their organization/community have an understanding of how to scientifically assess risk from flooding in order to mitigate and recover from the effects. This project allows students the ability to develop skills to utilize computer modeling systems and to apply the data to real world communities in examining risk to structures as well as different groups in the community.

Design2Data
Ashley Vater, University of California-Davis
The D2D program is centered around an undergraduate-friendly protocol workflow that follows the design-build-test-learn engineering framework. This protocol has served as the scaffold for a successful undergraduate training program and has been further developed into courses that range from a 10-week freshman seminar to a year-long, upper-division molecular biology course. The overarching research goal of this CURE probes the current predictive limitations of protein-modeling software by functionally characterizing single amino acid mutants in a robust model system. The most interesting outcomes of this project are dependent on large datasets, and, as such, the project is optimal for multi-institutional collaborations.

Using R to Build Powerful Predictive Models for Kaggle Competitions
Earvin Balderama, California State University-Fresno

Synthesis and Characterization of Ionic liquid and Ionic Solid Hydrates
Allan Cardenas, SUNY College at Fredonia
CHEM 481 is an advanced synthesis course focuses from synthetic design up to the full characterization of products including optimization. Students enrolled in this class are usually juniors and seniors who already taken organic and analytical laboratory classes. This CURE course will give student to design and perform the synthesis of novel ionic liquid; perform a full spectroscopic analysis of the products; optimize and scale up chemical reactions; provide molecular modifications if needed. This CURE train students to use chemical analysis instruments and introduce them to other capabilities of an instrument which is not usually discussed in regular undergraduate courses.

Extraction of Lycopene and other Antioxidants from Tomatoes
Marion Franks, North Carolina A & T State University
This CURE is focused on exposing undergraduate students to the use of chemical instrumentation to observe the composition of antioxidants in natural products. Students will learn how to read scientific literature, develop a hypothesis, plan research, interpret data, and relate the data to ongoing phenomenon.

Emerging Contaminants in Arizona
Frank Marfai, Phoenix College

A CURE Project for STEM Education at HBCU - Surface Pattern Design for Chemical Mechanical Polishing Pad
ZHICHAO LI, North Carolina A & T State University
Chemical mechanical polishing (CMP) process is widespread employed in many manufacturing industries such as semiconductor and aerospace. The objective of the present CURE project is to introduce the specific advanced manufacturing process to sophomore and junior students at North Carolina Agricultural & Technical State University. The CURE course will be combined and implemented through the course of ISEN324 (Computer Aided Design and Computer Aided Manufacture). Students in this CURE course will experience a basic training on how to conduct engineering research and development activities in manufacturing industry, develop skills in engineering design and precision manufacturing, and obtain capabilities in applying STEM knowledge to analyze and resolve engineering problems in real industry through modeling, simulation and optimization research steps.

Animal Genome to Phenome - A CURE for food security
Mulumebet Worku, North Carolina A & T State University