About
I've always had a knack and a passion for understanding how things work. Over the past 10 years, I've used this passion to dive deep into game-changing technology, gaining hands-on experience and a broad understanding of various advanced engineering disciplines, such as muon-catalyzed and electrostatic confinement fusion, robotics, and 3D-bioprinting.
I am a Co-Founder of a robotics startup that aims to transform the world of robotics by making advanced artificial muscle technology. This can make robots more agile, adaptable, and capable of interacting with the world in completely new ways. This startup was a result of years of research and prototyping. This gave me first-hand experience in 3D modeling, 3D printing, designing PCBs, programming in Python, HTML, Arduino, and Raspberry Pi, and much more. But the real trick was taking the prototypes and scaling them to be manufactured. This process gave me experience in designing for manufacturing like injection molding or CNC parts.
But it's not just about the technical skills. I've also had many roles that needed strong team-building, project management, and administrative skills. Leading to an extremely diverse background, ranging from mechanical engineering to project management. I believe in finding innovative solutions that combine theoretical knowledge with practical, real-world applications. I'm driven by a strong desire to solve problems, and I love learning new technologies quickly.
I enjoy working in environments about creativity, collaboration, and groundbreaking innovation. I'm always looking for partnerships with industry professionals, academics, and potential partners who are as excited as I am about using cutting-edge tech to make a real difference.
Experience
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Researcher
3D Bioprinting Lab at Texas Tech University · Full-time · Full-time
Jan 2019 –
Nov 2019
10 mos
Lubbock, TX, United States
• Conducted laboratory experiments on 3D
Bioprinting using inkjet-based bioprinting systems.
• Participated in regular meetings with
management to discuss aspects of research and
experiments.
• Cooperated with others in a team-based
environment to identify the cell viability of
bioprinted parts.
• Developed top-level skills in cell culturing,
biohazard safety, team communication, and
writing as a result of hands-on work and training.
• Recorded data daily in the university
database using Excel.
Education
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Texas Tech University - Edward E. Whitacre, Jr. College of Engineering
Master's Program, Mechanical Engineering
2018 – 2021