Under Technology transfer category, Proprietary innovative Technologies are available as total technology transfer solution, with market forecast, overview of the technology, product design detail, Best use cases, mass manufacturing methods, product pipeline and marketing and Sales strategy.
Proprietary Technologies available for Tech transfer:
Technology Transfer offers more than Patent licensing.
1.Direct Solar Lighting Technology (DSLS).
Revolutionizing Lighting with Stored Sunlight – No Electricity Needed
ATOA’s DSLS is a next-generation sustainable lighting solution that captures, stores, and delivers sunlight directly—without converting it to electricity. Using advanced optical technologies, DSLS enables 24x7 lighting by storing daylight during the day and releasing it on demand at night. It eliminates the need for batteries, reduces costs, and offers an eco-friendly alternative for smart homes, rural areas, and green infrastructure.
This Technology provides a unique foundation for next-gen passive lighting systems that significantly reduce energy load and thermal footprint. Explore our patented technology and partner with us to bring sunlight indoors—naturally, via ATOA Technolgy Transfers.
2.Direct Solar Network System Technology (SCTDS)
SCTDS – Global 24-Hour Solar Light Transport System: Harness daylight, deliver light anywhere, anytime. The Solar Concentrated Transport and Distribution System (SCTDS) is a breakthrough optical energy infrastructure that collects solar light, concentrates it, and transmits it across continents through advanced fiber-optic channels. Designed for uninterrupted 24-hour illumination, SCTDS enables global-scale solar energy distribution using node-based networks and cutting-edge meta-fiber technology. Ideal for smart cities, off-grid regions, and sustainable infrastructure.
This technology enable to Build a networked infrastructure—“solar highways”—using optical waveguides and steerable concentrators to transport and distribute sunlight globally, providing continuous solar energy supply, even in night or cloudy regions.
3.Lead Acid Battery Grid for superior storage and EV Battery.
Discover ATOA’s breakthrough in battery technology — a proprietary Multiphysics-engineered grid that transforms conventional lead-acid batteries into high-performance energy storage systems. Designed using advanced CAE and material science, this innovative grid architecture enhances active material utilization by over 100%, reduces weight by up to 60%, and significantly lowers resistance and current density. Customizable for existing or new battery platforms, ATOA’s grid technology is ideal for automotive, industrial, and grid storage applications. Available for licensing and technology transfer. Transform your battery with ATOA’s Multiphysics engineered advantage.
4.MEMS CMUT Tech for ultrahigh performance US modalities.
Unlock next-generation ultrasonic sensing with ATOA’s patented Capacitive Micromachined Ultrasonic Transducer (CMUT) technology. Designed through advanced Multiphysics simulation, ATOA’s CMUT offers unmatched performance in medical imaging, therapy, NDT, and sensing applications. With superior frequency response, low power operation, and robust single-mode architecture, this innovation overcomes conventional CMUT limitations.
Now available for technology transfer—including virtual prototypes, fabrication processes, application notes, and patent rights. Ideal for medical device developers, MEMS manufacturers, and ultrasonic system integrators.
5.NEMS/MEMS Capacitive device Tech for smart devices.
Scalable Integration of High-Performance MEMS Capacitive Structures. This technology enables a wide range of novel MEMS and NEMS devices through its innovative capacitive structure, which significantly enhances electrostatic force and sensitivity at low operating voltages. Among its key applications are capacitive sensors such as accelerometers, gyroscopes, pressure sensors, proximity sensors, vibration detectors, microphones, touch and flow sensors—widely used in mobile devices, automotive systems, and industrial monitoring. The invention also supports advanced capacitive actuators and micropumps, making it ideal for microscale robotics and precision control systems. Additionally, it improves MEMS and NEMS resonators, including RF filters and tunable frequency components for communication systems.
The patent also extends to CMUTs, electrostatic energy harvesters, enabling miniature self-powered devices for IoT applications. Emerging areas of use include electroactive polymer actuators, artificial muscles, flexible and wearable electronics, haptic feedback systems for immersive interfaces, and even capacitive elements in quantum sensing. This broad applicability positions the invention as a platform technology for next-generation sensing, actuation, imaging, and energy harvesting across industries such as healthcare, consumer electronics, automotive, defense, and industrial automation.