Photocatalytic degradation of model compounds
Sarah St. Angelo, Dickinson College
This CURE is intended for a junior/senior level inorganic chemistry laboratory. Students will synthesize various composite nanomaterials than can be tested for photocatalytic activity for the degradation of model compounds (organic dye molecules). The components of the nanocomposites will be varied and the effects on the photocatalysis will be measured. Students will synthesize the nanocomposites and characterize them with several techniques useful to materials chemists, such as SEM, XRD, and AA.

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.

Soil health analysis at the NC A&T Student farm
Arnab Bhowmik, North Carolina A & T State University
Soil health is the capacity of soil to not only be productive but maintain ecological services. The NC A&T student farm is an excellent opportunity for students to have hands-on experience for soil science related experiential learning. This project will allow the students to develop skills to sample, test, analyse and interpret soil properties as a function of different soil mangement strategies

Genetic Engineering of Zebrafish to Investigate Tumorigenicity of Cancer Mutations
Terry Shackleford, St. Marys University

Beyond the acronym: Employing data science to improve engagement in STEM
Pamela Reynolds, University of California-Davis
Forbes magazine ranked UC Davis as the "best value college for women in STEM." Let's investigate why, together! In this hands-on Course-based Undergraduate Research Experience (CURE), you will leverage computational tools and methodologies to explore, analyze and design solutions to maximize discoverability and engagement with STEM offerings right here at UC Davis. Community-based tools like the UC Davis STEM portal help students and members of the broader community discover and connect with opportunities in science, technology, engineering and math. How do we define STEM, and how do people interface with the diversity of offerings at our university? Through this seminar you will learn about web scraping, text mining, natural language processing, and user interface design as you work on projects to optimize search functionality and increase content management automation for the Portal, which serves as a single point of entry for catalogued information related to STEM initiatives, clubs, programs and events on campus. This research will be used to improve the discoverability and accessibility of our university's resources, and identify new opportunities for multidisciplinary research and engagement with STEM. The data we collect and workflows designed in this class will contribute to research in the digital humanities and philosophy of science regarding the shape of the discourse surrounding STEM in academia. It will also have a direct application in helping our students and broader community discover new resources and opportunities. Students will be required to work both individually and collaboratively in groups, and to share their learning with each other. This class is open to first-year freshman and transfer students from all majors. You do not need to be a computer scientist to be successful in this course, but you should be comfortable using a computer and have prior exposure to programming (R, Python, etc.). Your instructor team is looking forward to supporting your learning and engagement with research in this class!

Introduction to GIS using CURE
Elizabeth Bollen, Adams State University; Chayan Lahiri, Adams State University
Geographic information systems (GIS) are used in many capacities across every discipline to help communities, governments, and businesses make informed decisions. This Introduction to GIS CURE course aims to assist local ranches by locating sampling sites for watershed analyses. Students in this GIS course will develop skills manipulating data by learning GIS software. The students themselves are tasked with identifying sampling site criteria for the broader study, which will assist other student researchers in locating scientifically viable, safe, and accessible sampling sites for watershed sample collection. Students in this course will also use knowledge gained in prior classes to make and defend decisions. Written reports, figure drafting, and group discussions will help students learn how to clearly and effectively communicate their findings and results. The knowledge and skills students' gain in this course will be used in future classes and are highly sought after by employers.

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.

Probe the Effect of Physical Graphene Hole Morphology on its Acidity
Michael Groves, California State University-Fullerton
The purpose of this activity is to create and submit a job to a scheduler on a high-performance computing resource and conclude if the job relaxed to below a given threshold. We will also test how changing the requested resources affects the time to complete the job.

General Chemistry II Water Quality labs at Adams State University
Christina Miller, Adams State University; Christopher Adams, Adams State University; Umesh Bhattarai, Adams State University
Adams State is conducting CURES in many of our lower divisional Biology, Chemistry, Geology and Math courses to increase the number and diversity of students who participate in undergraduate research. In General Chemistry II lab we will be replacing our normal labs concerning titration pH and ion solubility with CURES concerning water quality. These water samples will come from surrounding areas that have either been grazed or ungrazed to find out if there are differences in water quality between them. We will be using ion-specific probes to determine the presence and concentration of specific ions in the water samples. We will be using pH probes and titration to determine the acid concentration in water samples.

Understanding Noncovalent Interactions and Binding through PRRSM
Amanda Hargrove, Duke University
This CURE was designed to increase instruction on noncovalent interactions and intermolecular forces, provide laboratory experiences in biochemistry and chemical biology, and deliver a more consistent chemistry research experience to undergraduates at Duke University while staying within the existing curriculum. First, the concept of noncovalent interactions is visualized in an applied setting by examining 3D structures of small molecule:RNA interactions through a portable virtual reality (VR) environment. Next, using knowledge gained in the Hargrove lab regarding small molecule:RNA interactions along with the literature examples, teams of students evaluate known small molecule:RNA interactions, pose original scientific questions, and design a hypothesis-driven experiment that can be readily tested with commercially available materials using a standard fluorimeter or plate reader. These experiments directly contribute to research that examines patterns in the recognition of RNA structure by small molecules, and the students are able to assess their contribution to this ongoing interdisciplinary project.