2016-2017 Undergraduate Research Grant Recipients
Nasim Abedelwahab
Mentor: Dr. Ramesh Guduru
Research: Supercapacitors from Recycled Industrial Mill Scale Waste
Abstract: The steel industries produce metal oxide based waste materials during the manufacturing processes, known as mill scale, which
Aleksander Allen
Mentor: Dr. Weihang Zhu and Dr. Hassan Zargarzadeh
Reseach: Design and Improvement of a 3D Printed Prosthetic Hand
Abstract: The objective is to design and improve a 3D printed prosthetic hand, which can be used to replace a lost
Isaac Angeron
(not pictured)
Mechanical Engineering, College of Engineering
Mentor: Dr. Keivan Davami
Research: Design and Fabrication of 3D Printed Metamaterials as Energy Absorbers for Head Injury Protection
Abstract: There are many improvements that can be made to the modern day helmets that are used
Lindsey Antley, Karen Corbello, Sidney Onwuharonye & Tanasha Slack
(Not Pictured)
Deaf Studies and Deaf Education, College of Fine Arts & Communication
Mentor: Dr. M. Diane Clark
Research: Black Deaf Individual and Interpreters as Allies: An Autobiographical Project
Abstract: Black Deaf individuals are doubly oppressed, excluded from African American culture because of being deaf and excluded from Deaf culture because they are black. The research regarding Black Deaf individuals is extremely limited. Given this lack of knowledge; two Black Deaf ASL students and two white interpreting students are analyzing how Black Deaf individuals make meaning in their lives and how interpreters function to become allies for their clients, peers, and friends who are Black Deaf. The project is using an autoethnographic methodology to create a counter narrative that places Black Deaf individuals at the center of the story.
Quaid Campbell
Mentor: Dr. Ramesh K. Guduru
Research: Hydrophobic Structural Steels
Abstract: Structural (mild) steels are extensively used in many applications, including bridges, suspension springs, and automobile bodies etc. These steels have a problem of corrosion
Kirby Clayton
Mentor: Dr. Chun-Wei Yao
Research: Investigation of Enhanced Water Harvesting of Superhydrophobic Nanostructured Surfaces
Abstract: Examples of global climate change have become increasingly more apparent in today's world, and is presently one of the biggest problems society is facing. As the average international temperature continues to rise, accessing fresh water for individual and agricultural use proves to be progressively more problematic. The goal of this project is to fabricate and characterize superhydrophobic nanostructured surfaces to study the underlying physical mechanisms responsible for enhanced water harvesting. If successful, nanostructured surfaces will be used in a portable atmospheric water generator which could extract water from
Brooke Cleveland and Kelsey Burt
Mentor: Dr. Nandhu Radhakrishnan
Research: Early Detection and Intervention of Voice Problems in School Teachers
Abstract: Voice problems are common among professional voice users. Teachers, singers, politicians, and sales representatives are some of the professionals in this category. Vocal health is crucial for these people to perform their job. School teachers are the most commonly seen population in a voice clinic. Early detection and intervention can help teachers prevent voice disorders and save their job. This project intends to identify school teachers developing a voice problem and implement a group therapy regimen. Voice analysis will be performed before and after therapy to study the efficacy of the intervention program.
Christian Dao
Mentor: Dr. Keivan Davami
Research: Scalable Fabrication of Strong Lightweight Plate Metamaterials
Abstract: Strong and lightweight materials are a premium in engineering with a wide range of applications such as in aerospace and automotive industries, solar cells, etc. Nanoscale mechanical metamaterials are the most recent development in the ongoing quest for strong and lightweight materials. Their unusual mechanical properties are attributed to their geometry and hierarchical
Alec Defeo
Mentor: Dr. Roland Barbosa
Research: Preparation of Copper-manganese Catalysts for Methanol Steam Reforming
Abstract: Hydrogen is considered the clean fuel for the future but the difficulties of its distribution and storage thwarts its widespread use. An approach to circumvent these problems is the use of methanol as a hydrogen source via
Stephanie DeMeyer
Mentor: Dr. M. Diane Clark and Dr. Natalie T.J. Tindall
Research: PSA: The importance of a second hearing screening for infants
Abstract: More than 50% of infants who are suspected to have a hearing loss are lost to follow-up. This project will focus on identifying the barriers,
John Ellis
Mentor: Dr. Kami Makki
Research: An Investigation of Successful Information Technology Practices for Non-Profit Organizations and Small Businesses (Based on Findings from DCI-Member Drum & Bugle Corps ذكذكتسئµs)
Abstract: Drum Corps International, a nonprofit organization in Indianapolis, Indiana annually hosts educational clinics and performance events for students in the United States and beyond. Its main function is an annual summer tour featuring over 42
Shelby Garbee
Mentor: Dr. Mamta Singh
Research: Elementary Pre-Service Teachers and Renewable Energy Education
Abstract: The purpose of this study is to investigate knowledge and attitudes of elementary pre-service teachers towards renewable energy resources. Participants will be students enrolled in the College of Education and Human Development. Content knowledge pre-posttests and energy attitude survey will be used to measure the research objectives. As a result of this study, elementary pre-service teachers will be educated on renewable energy resources and will also be able to develop energy related lesson plans that will be taught in
Federico Gasbarri
Mentor: Dr. Keivan Davami
Research: Design and Fabrication of a Vapor-Liquid-Solid Growth System for the Synthesis of One-Dimensional Nanostructures
Abstract: Earth's average temperature has risen by 1.5°F over the past century as a result of burning fossil fuels to produce energy. As awareness about environmental issues is spreading, the necessity of green energy production becomes clearer every day. Thermoelectric devices without moving parts can convert thermal energy from a temperature gradient into electrical energy which makes them attractive for clean energy harvesting. This research aims to
Amina Gibic
Mentor: Dr. Vivek Natarajan, Dr. Kabir Chandra Sen & Dr. Nandhu Radhakrishnan
Research: Fast and Last: An experimental vocal analysis of forming of risks versus appeals in tobacco and alcohol consumer television ads
Abstract: Advertisements promoting tobacco and alcohol products have been and continue to be a controversial topic. In particular, critics argue that
John Gust
Mentor: Dr. Keivan Davami & Dr. Ali Beheshti
Research: Two-dimensional Phase Changes: Synthesis and Characterization of Atomically-Thin Diamond Films from Few-Layer Graphene
Abstract: The gemological and industrial applications of diamond and the cost of natural diamonds have created immense demand for synthetic bulk and thin film diamond. Diamond thin films have potential uses in numerous applications such as cutting tools, electronic cooling, etc. due to their exceptional electronic, optical, mechanical, and thermal properties. Graphene-to-diamond phase transformations have undergone extensive theoretical study, but experimental reports are limited. Thus, further research into novel synthesis methods and characterization of synthesized diamond films
Andrew Hunt
Mentor: Dr. Ali Beheshti
Research: Nanoparticles as Lubricant Additives for Friction Reduction in Internal Combustion Engines
Abstract: Friction is the main cause of power and efficiency loss in the form of unnecessary heat, wear, and system failure in almost every mechanical system, especially the internal combustion engine. All of this leads to costly repair and operational inconvenience. These issues call for modern methodologies to reduce friction as much as possible especially in view of current concerns about fossil fuel and materials consumption as well as their environmental effects. The proposed research seeks to investigate the effect of dispersing nanoparticles into oil on friction reduction in the most important piece of the powertrain; the internal combustion engine.
Julia Lin
Mentor: Dr. Helen Lou
Research: A Novel Methodology for Inherent Safety Assessment in the Process Design Stage
Abstract: Safety is an important concern in manufacturing processes, aiming to design a low hazard, environmentally friendly and sustainable environment. This research introduces the Comprehensive Inherent Safety Index, an object-oriented approach to quantify process safety in the early design stage, to evaluate equipment safety scores for individual units based on three factors: chemical, process, and connectivity. Two case studies, biodiesel and methyl methacrylate production will be analyzed using the Aspen Plus software. The results will be used to compare the two processes based on inherent safety and can serve as an aid to identifying areas for improvement in a root-cause analysis.
Yuangao Liu & Rachel Thompson
Mentor: Dr. Ian Y. Lian
Research: Development of Novel Cancer Migration Assay Platform for Drug Screening Applications
Abstract: The combined phases of basic science research, animal testing and clinical trials for drug development often cost more than a billion dollar and over ten years to complete. One major reason for the inefficiencies and costs is the limitation of cell-based assays. We will conduct a time-lapsed study to quantify the toxicity and efficacy of novel pharmacological agents with the goal of developing an innovative cell-based drug screening protocol. The metastatic potential of the cancer cells will be measured using cancer-migration assay under a
Qiuyi Ma
Mentor: Dr. Harley Myler
Research: Autonomous Robotic Remediation of the Invasive Red Fire Ant (Solenopsis invicta )
Abstract: The invasive red fire ant (Solenopsis
deteriorating populations of this species. This research will focus on challenges associated with the autonomous operation and control of a robot capable of killing fire ants by photonic heating that is environmentally responsible in energy conservation and impact to the ecosystem.
Hostin May
(not pictured)
Biology, College of Arts & Sciences
Mentor: Dr. Matthew Hoch
Research: Effect of Sea Surface Temperature on Microbiomes of Corals in Seagrass Habitats of Belize
Abstract: Global warming is detrimental to seagrass meadows and coral reefs that protect and provide resources to tropical coastal communities. Small increases in sea surface temperature (SST) can initiate disease processes in corals that may lead to death. The microbiome of some reef corals can change in response to SST rise, favoring
Caitlin McAlister
Mentor: Dr. Bryan Proksch
Research: Sousa’s Correspondence and Business Papers
Abstract: John Philip Sousa was an important composer and bandmaster as well as an early celebrity in American popular music. Yet despite his standing, virtually all of the primary source materials relating to his life remain unpublished and relatively unknown. The present proposal funds archival research at the University of Texas at Austin, which holds a substantial part of Sousa’s professional correspondence that remains unexamined some 80 years after his death. This proposal seeks
Amy Morris
Mentor: Dr. Donna Meeks & Mr. Kurt Dyrhaug
Research: Encaustic Wax Painting Research
Abstract: Encaustic is an ancient Greek painting technique using hot wax and pigments. It is most famously known for use in Egyptian funerary portraits, arguably the most well-preserved paintings in antiquity. The qualities of wax also bring sculptural depth, texture, and volume to a painting as no other medium can. I encountered encaustics upon viewing an Egyptian funeral portrait display at the Menil Collection in Houston last fall. Since then, I have looked into the current uses of encaustics in painting. My research is geared to cultivate a technical understanding of different encaustic techniques for integration into my current artwork.
Caroline Nwandu
Mentor: Dr. P. Chandrasekaran
Research: Removal of toxic mercury ions from polluted water using thioether sacrificial ligands
Abstract: Mercury and its compounds are toxic. Mercury species are introduced into water sources by industrial processes, or through bioalkylation of inorganic mercury catalyzed by metalloenzymes. Over the years, several adsorption materials and membranes were developed for mercury removal from contaminated water,
Emily Ochoa
Mentor: Dr. Cengiz Sen
Research: An implementation of Perl scripting language as a wrapper in simulations of manganese oxides
Abstract: Study of manganese oxides (also called manganites), materials where a manganese ion is shared with oxygen ions, requires simulations of realistic microscopic models that include spin, phonon, and electronic degrees of freedom[1]. Recent results
using a cool-down algorithm, where the temperature is lowered in a controlled manner as the simulation progresses, have been published before[2]. However, the effects of slowly increasing the temperature are yet to be investigated. In this
manuscript, I propose a warm-up (temperature increase) algorithm to be written in Perl scripting language, which will be used as a front-end for the simulations and test the results of the cool-down method.
Sidney Onwuharonye, Tanasha Slack, Lindsay Antley & Karen Corbello
Mentor: Dr. M. Diane Clark
Research: Black Deaf Individual and Interpreters as Allies: An Autobiographical Project
Abstract: Black Deaf individuals are doubly oppressed, excluded from African American culture because of being deaf and excluded from Deaf culture because they are black. The research regarding Black Deaf individuals is extremely limited. Given this lack of knowledge; two Black Deaf ASL students and two white interpreting students are analyzing how Black Deaf individuals make meaning in their lives and how interpreters function to become allies for their clients, peers, and friends who are Black Deaf. The project is using an autoethnographic methodology to create a counter narrative that places Black Deaf individuals at the center of the story.
Aaron Phillips
Mentor: Dr. P.J. Couch
Research: Thor Sequences as a Platform for Interaction Between Relations and Their Components
Abstract: A graph G = (
Fredrick Ryans
Mentor: Dr. Sujing Wang
Research: Improved K-means Clustering Algorithm on Hadoop for Big Data Analysis
Abstract: Big Data introduces several computational challenges. Due to the increased workload to process large
Tanasha Slack, Sidney Onwuharonye, Lindsay Antley & Karen Corbello
Mentor: Dr. M. Diane Clark
Research: Black Deaf Individual and Interpreters as Allies: An Autobiographical Project
Abstract: Black Deaf individuals are doubly oppressed, excluded from African American culture because of being deaf and excluded from Deaf culture because they are black. The research regarding Black Deaf individuals is extremely limited. Given this lack of knowledge; two Black Deaf ASL students and two white interpreting students are analyzing how Black Deaf individuals make meaning in their lives and how interpreters function to become allies for their clients, peers, and friends who are Black Deaf. The project is using an autoethnographic methodology to create a counter narrative that places Black Deaf individuals at the center of the story.
Lauren Smith
(not pictured)
Nursing, College of Arts & Sciences
Mentor: Dr. Cynthia Pipkins
Research: Expressive Art and Stress Levels in Cancer Patients: A Mixed Methods Study
Abstract: Therapeutic work involving holistic complementary alternative therapies are utilized to calm and balance the mind, body, and spirit. Research suggests art therapy may improve
Rachel Thompson & Yuangao Liu
Mentor: Ian Y. Lian
Research: Development of Novel Cancer Migration Assay Platform for Drug Screening Applications
Abstract: The combined phases of basic science research, animal testing and clinical trials for drug development often cost more than a billion dollar and over ten years to complete. One major reason for the inefficiencies and costs is the limitation of cell-based assays. We will conduct a time-lapsed study to quantify the toxicity and efficacy of novel pharmacological agents with the goal of developing an innovative cell-based drug screening protocol. The metastatic potential of the cancer cells will be measured using cancer-migration assay under a
Julian VanDevender
Mentor: Dr. Julia Yoo
Research: The Effect of Cooperative Learning in High School: Student Learning Achievement and Motivation and Challenges from Teachers
Abstract:This study will examine the effect of cooperative learning
An Vo
Mentor: Dr. Jeremy A. Shelton
Research: Biometric Analysis of Ego Depletion
Abstract: The resource model of ego depletion states self-control is a limited resource that is depleted after a period of exertion. Recent research, however, questions what the actual “resource” is that powers self-control and is supposedly depleted with repeated use. The limited resource model indicates blood glucose is the limited resource, whereas, the process model indicates dopamine (produced via intrinsic motivation) is the resource and is not limited. The proposed research project will explore this controversy by testing whether ego-depletion produces measurable biometric changes (i.e., reduced blood glucose levels and evoked pupillary responses).
Suzanne Wheeler
Mentor: Dr. Cristian Bahrim
Research: Finding the Composition of Selected Medical Plants using Spectroscopy of Absorption
Abstract: Spectroscopy of absorption is the field of optics where we analyze the light absorbed by various media. This method is difficult because it requires the subtraction of weak photon signals from a strong background light. We intend to analyze the absorption spectra of various medicines and medical plants in three settings: (1) embedded into a Planck radiation produced by flames; (2) in commercial teas (solid substances boiled in water); (3) in solutions using plants from our area. The purpose of this research is finding similar light patterns of chemicals in
Eric Yeager
Mentor: Dr. Ashwini Kucknoor
Research: Investigation of inflammatory response of prostate cancer cells to stimulation by Trichomonas vaginalis
Abstract: Trichomonas
Christopher York
Mentor: Dr. Valentin V. Andreev
Research: Optimizing Inferential Basis for Determination of Kinase Inhibitor Selectivity
Abstract: As the heterogeneous nature of cancer began to emerge, scientists started advocating molecular therapies based on a multi-pronged attack on tumors; of central clinical importance then is whether the derived clinical impact is likely to have side effects. Zhang and Fernandez have shown that the binding of a kinase against a set of inhibitors is highly correlated to the structural information of the kinase. It was then discovered that knowing the interaction between a small subset of kinases suffices to determine the specificity of a given inhibitor. Using