01 — Technology Translation
Technology Translation and Deep Tech Commercialization
Core studio strength: bridging the gap between specialized research and viable commercial products across energy, materials, life sciences, and engineering domains.
Ability to read, evaluate, and extract commercial potential from advanced scientific literature, lab-stage research, and technical IP across multiple domains.
Experienced in taking specialized technologies and building products around them, including the engineering, manufacturing, and go-to-market work required to make deep tech real.
Capable of serving as the commercial development partner for research institutions and inventors who have strong technology but lack product engineering or market execution capabilities.
Fluency in licensing, manufacturing partnerships, technology transfer, and market entry across multiple industry verticals.
02 — Energy Storage
Energy Storage and Battery Systems
Multi-market battery architecture spanning automotive, commercial trucking, UAV, energy storage systems, and light mobility platforms.
Secondary and primary battery cell chemistry selection and optimization across Li-Ion based chemistries for application-specific performance targets.
Battery module and pack design optimized across energy density, thermal performance, structural integrity, mass, volume, cost, and manufacturability.
Thermal runaway prevention, mitigation, and propagation engineering at cell, module, and pack level.
ESS module design for grid, microgrid, and utility-scale stationary storage, including long duration use-case engineering for 15 to 20+ year operational life.
Production line architecture: custom test hardware development, automated assembly integration, process documentation, and cell characterization protocols.
22 issued U.S. patents in battery architecture, phase-change thermal management, power electronics systems, and energy storage system design.
03 — Thermal Management
Thermal Management: Phase Change and Advanced Cooling
Advanced thermal architecture from cell level to system level, including phase change, immersion cooling, vapor chambers, and heat pipe configurations.
Immersion cooled battery architecture: fully and partially submerged configurations including dielectric fluid selection, buoyancy management, and thermal interface optimization.
Vapor chamber systems for battery thermal management: wicking material design, working fluid selection, and phase change heat transfer achieving 500 to 2000 W/mK thermal transfer per cell.
Cold plate blade design for battery modules: ultra-thin extruded cold plate functioning simultaneously as thermal conductor and structural member.
Dual-phase battery cooling systems: liquid-to-vapor phase change architecture for passive, self-activating thermal management without active pumping.
Thermal modeling and simulation: steady-state and transient analysis from cell to system level.
04 — Electrical Architecture
Electrical Architecture and Power Electronics Systems
High voltage DC power systems, pulsed power, solid state switching, and precision interconnect design for demanding energy applications.
High voltage electric DC power systems up to 100kV and high energy DC energy systems up to 500kWh+.
Solid state switch integration for vehicle energy storage systems: protection and isolation circuitry replacing mechanical contactors for improved reliability and thermal performance.
Current carrier architecture: busbar and current distribution systems optimized for resistance, mass, and manufacturing complexity.
Pulsed power systems: capacitor banks, capacitive discharge units, and Pulse Forming Networks.
Power electronics systems testing, PCB layout, and EMI/EMC validation.
Micro-laser welding technology for cell interconnects: high precision, low resistance cell-to-cell connections at manufacturing scale.
05 — Spacecraft Systems
Spacecraft and Life Support Systems Engineering
Environmental control and life support system architecture for human-rated spacecraft, including air circulation, filtration, and waste management.
ECLSS architecture: air circulation, air sanitation, and waste management for human-rated spacecraft.
Airflow system analysis and optimization: duct geometry, pressure drop reduction, fan sizing and efficiency for closed-loop pressurized environments.
CO2, trace contaminant, and particulate filtration system design for crewed spaceflight applications.
Microgravity waste management system design including novel capture mechanisms and static phase separation techniques.
Man-rated qualification testing across vibration, shock, ionizing radiation, EMI/EMC, thermal, and vacuum environments.
06 — Life Sciences
Life Sciences, Health, and Longevity
Research and development in medical and wellness product design, biohacking, longevity science, and biomedical model development.
Machine learning and biomedical model development applied to health and life science applications.
Ayurvedic and integrative medicine frameworks applied to product research and health system design.
Food-as-medicine and lifestyle protocol development grounded in ancient and modern health sciences.
Advanced materials research and validation for structural, electrical, and thermal applications in demanding environments.
