As Tech Coordinator for Friends of MSF at UTD, I designed and developed a recruitment website using Node.js, HTML, CSS, and Bootstrap. This initiative significantly boosted campus presence by providing potential members with an accessible platform to learn about our mission and involvement opportunities. The website was a resounding success, utilized by all club members during recruitment events to effectively share information and engage with students, enhancing overall outreach efforts. You can view the site by clicking the button below !
The SolderFan Wiki was a hands-on project focused on upcycling and functional design. I repurposed an old desk fan into a high-performance solder smoke absorber, a solution that effectively captured fumes and breathed new life into an unused item. This endeavor provided a valuable opportunity to master CAD design using Shapr3D, where I engineered a custom housing specifically for a carbon filter. The project significantly enhanced my understanding of product development, iterative design processes, and the efficiency of custom manufacturing partnerships in bringing innovative ideas to fruition. The wiki and 3D model can be viewed using the button below !
PinIt is a volunteer opportunity platform developed during HackUTD 2024, focused on integrating the Pinata file API. Our team's initial goal was to create a dual-function website allowing users to search for volunteer opportunities and organizations to post them. While only the frontend of the homepage was completed by the hackathon's end, I've taken on the challenge of implementing the Pinata API into the backend to bring the full vision to life. Clicking the button below will take you to the final result of my group's work and I will be putting in extra work to bring the site to life !
As an Undergraduate Research Apprentice at The University of Texas at Dallas (Materials Science Department), I contributed to a project exploring the fundamental effects of changing LED polarity from Ga-polar to N-polar. Our in-depth study analyzed impacts on carrier concentrations, emission spectrum, IV curves, and band diagrams, with the primary goal of identifying performance enhancements in LEDs. This foundational work laid the groundwork for future research into photodetector polarity, aspiring to ultimately improve fiber optic cable transmission and receiving speeds. I synthesized our findings into a comprehensive research poster, which I presented to university faculty and staff at a symposium. Clicking the button below will take you to my research poster !