With over 7 years of experience in electrochemical biosensors, I am passionate about designing and developing innovative solutions for biomedical applications. The mission of my research has been advancing the understanding and treatment of neurological disorders by creating a lab on a chip with multi-modal sensing for neurotoxicity research. I have just defended my PhD thesis at Purdue University, where I have had the opportunity to work with leading experts in the field and collaborate with interdisciplinary teams.My research experience also includes integrating glucose and lactate biosensors into a soft, flexible microneedle patch for minimally invasive, wearable intradermal monitoring, fabricating flexible multi-analyte biosensors by robotic direct ink writing, and translating a method for enzyme immobilization by electropolymerization to microelectrode arrays. These skills enable me to produce high-quality devices that can measure physiological parameters with high sensitivity and selectivity. Additionally, I have experience in teaching, mentoring, and publishing, which demonstrate my communication, leadership, and analytical abilities.