Experience

Ictero Medical

• United States
• Medical Equipment Manufacturing
• 1 - 100 Employee

• Principal R&D Engineer

  • Sep 2022 - Present

• Research And Development Engineer

  • Oct 2019 - Sep 2022

  Worked closely with executives, consultants, and vendors to develop and iterate key components of a cryogen delivery catheter. Developed multiple bench top models for validating entry methods and freezing efficacy. Designed and assembled PCB mounted control system and developed a robust control software to ensure a safe and consistent delivery of cryogen.



Stak Labs, Inc.

• Computers and Electronics Manufacturing

• Chief Executive Officer

  • Jan 2020 - Mar 2021

  Co-founded STAK Labs and took on the primary role of driving operations on a day-to-day basis. Initially my work focused on translating our core heating technology into a minimum viable product and performing customer validation activities. In parallel to product development, I led the business development and fundraising efforts for the company. This included creating a business plan, crafting a strong pitch deck to recruit investors, and raising an initial Friends & Family round. Lastly, I collaborated with intellectual property (IP) counsel to identify the novel aspects of our device and formulate an overarching IP strategy for the business. Show less



Rice University

• Higher Education
• 1 - 100 Employee

• Graduate Student Researcher

  • Aug 2017 - Dec 2019

  Studied the effects of weak correlations in interacting electronic systems using coupled-cluster expansions on generalized Hartree Fock solutions to the Hubbard model, with an extension to strongly interacting systems via embedding methods such as density matrix embedding theory. This research focused less on understanding the physical nature of these systems, and more on determining the most efficient numerical method for tackling large systems of interacting electrons. Studied the effects of weak correlations in interacting electronic systems using coupled-cluster expansions on generalized Hartree Fock solutions to the Hubbard model, with an extension to strongly interacting systems via embedding methods such as density matrix embedding theory. This research focused less on understanding the physical nature of these systems, and more on determining the most efficient numerical method for tackling large systems of interacting electrons.



San Jose State University

• United States
• Higher Education
• 700 & Above Employee

• Undergraduate Researcher

  • Aug 2014 - May 2017

  Investigated spin and charge ordering in strongly-interacting electronic systems through the combination of toy models (Heisenberg model, Hubbard model, etc), and exact numerical solvers (exact diagonalization and numerical linked-cluster expansions). This research served to characterize the electronic order present near the transition temperature in high-temperature superconductors, the exact nature of which being an open question in condensed matter physics. Investigated spin and charge ordering in strongly-interacting electronic systems through the combination of toy models (Heisenberg model, Hubbard model, etc), and exact numerical solvers (exact diagonalization and numerical linked-cluster expansions). This research served to characterize the electronic order present near the transition temperature in high-temperature superconductors, the exact nature of which being an open question in condensed matter physics.



CogniMem Technologies Inc.

• United States
• Semiconductor Manufacturing
• 1 - 100 Employee

• Research Analyst

  • Jul 2013 - Aug 2014

  Worked closely with software engineers to develop novel solutions for customers. Developed algorithms related to computer vision, including person detection, 3D imaging from stereoscopic vision systems, manufacturing quality control, and path mapping using C# and C++ Worked closely with software engineers to develop novel solutions for customers. Developed algorithms related to computer vision, including person detection, 3D imaging from stereoscopic vision systems, manufacturing quality control, and path mapping using C# and C++