Faculty and Undergraduate Student Research Database

As a rising star, perovskite-based photovoltaics have been demonstrated to be the most promising solar technology for low-cost mass production through high-speed printing. The certified champion power-conversion efficiency (PCE) of perovskite solar cells (PVSCs) has been boosted to 25.7%, which is on par with the best performance of dominating silicon solar cells. However, PVSCs still must overcome a few obstacles before becoming economically competitive in the photovoltaic market. The primary challenges include instability causing reduction in lifetimes and lengthy annealing times limiting the mass production. In this project, undergraduate students research fellow will work with graduate students and postdoctoral research fellows to explo...

MOTIVATED, CURIOUS STUDENTS SOUGHT Multiple positions available on a paid, course credit, or volunteer basis for students interested in getting involved in a multi-disciplinary research project relating to human gesture and activity recognition technologies using radar. No prior radar experience required. Depending on student interests and background, specific role in project will be designed and level of responsibility determined. Potential topics include - programming and experimentation with a variety of software defined radio platforms - human kinematic modeling and skeleton tracking using multiple Kinect sensors - machine learning algorithm development for activity and gesture recognition - radar signal processing and radar...

There are multiple projects that deal with interfacing of sensors to microcontrollers (MSP430, STM32). Skills in hardware and software interfacing are needed. These skills may include: microcontroller programming, PCB design, 3D design, sensor prototyping, smartphone programming, etc. Some of the projects may be taken for class credit in the research scholars program, some are paid positions. The paid positions typically are on time cards, but do not pay for time, but rather for the final result. Previous projects like this resulted in students writing papers and presenting them at various conferences. One project took the second place at student paper competition at IEEE Southeastcon, another took 3rd place (and a $5000 award) at TI Innov...

Student can get involved in the following aspects of the project: 1. Development of novel radiation detectors optimized for the magnetic monopole searches. 2. Monte Carlo simulation and data analysis to support the current and planned searches for magnetic monopoles and other particles beyond the Standard Model of physics....

We have a number of occasional paid tasks associated with research. This is a good opportunity to develop design skills. The availability and selection of tasks varies from time time to time. Examples include: - software design: microcontroller programming, Bluetooth stack design, Java/Javascript - electronic design: sensor design, FPGA programming - 3D design: enclosure design and prototyping - manufacturing tasks, assembly - assistance with conducting human experiments and annotation of data...

Students interested in brain-to-brain coordination during coversation (as well as development of it in children and clinical populations) are invited to train in my lab (https://malaia.people.ua.edu/opportunities.html) as volunteers. Class credit available in CD 350 or CD 360 Honors; training in Good Laboratory Practices and experiment administration provided. Since the training is fairly involved, 1-year commitment (Fall-Spring, or Spring-Fall) is required. You'd be working in a small group (3-4 student researchers), and comfortable coordinating/scheduling flexibly. The hours (3-5/week) are calculated based on 2-3 experimental recordings a week, which, depending on participant availability, might take place evenings or weekends. Any ma...

We have several projects that deal with development and testing of biomedical instrumentation. Depending on the project, the students may participate in several related research activities: 1) Sensor design, manufacture and testing. Practical hands-on tasks that often need 3D design skills, working with plastics, resins and other materials. 2) Signal processing and pattern recognition of signals collected by our sensors. The sensors are used in the human studies and the collected data need to be processed to recognize events of interest in the sensor data. Either direction can be used as a credit in research scholars program or for conference paper preparation....

Dr. Cheng is looking for motivated undergraduate students to join his group. The students will participate in several projects funded by NSF, GLPF and UA. As an example, his group is developing new implantable material, sensors and machine learning algorithms in order to remotely monitor people with disabilities. The students should be familiar with engineering principles, programming and problem solving....

Participate in one or more of the following: (1) NSF I-Corps and Customer Discovery Activities, (2) Data collection and analysis for Battery State-Of-Health (SOH) Diagnosis and State-Of-Charge Estimation, (3) Design and Fabrication of electronic circuits for battery related measurements, (4) Artificial Intelligence (AI) or Machine Learning (ML) algorithms development for Battery Management Systems, and (5) Matlab Modeling or Programing for Battery Management Systems. The project is co-advised by Dr. Jaber Abu Qahouq (ECE, College of Engineering) and Dr. Rob Morgan (The Culverhouse College of Business). Additional information details are available upon request by contacting Dr. Jaber Abu Qahouq at jaberq@eng.ua.edu or Dr. Rob Morgan at ...

I am looking for a student who is interested in learning 3D modeling, CNC machining and extrusion molding. My lab has a very nice CNC machine, Tormach 440 (see here https://www.tormach.com/pcnc-440/). I plan to utilize this CNC machine to make plastic enclosures for the small wearable sensors. First, 3D models of enclosures and molds to make these enclosures need to be designed in Fusion 360 software. Then the molds need to be machined out of wax and tested. When the molds are fully tested, we will need to machine them from aluminum. The machined molds then will be used with a plastic extrusion machine to make enclosures. This is a rather involved project but a fun learning experience for anyone interested in advanced manufacturing....