CES 2026 made it clear that solar technology is no longer just about putting panels on rooftops and waiting for the sun to do the rest. Across the show floor, companies showcased systems that move, bend, roll, recycle themselves, or operate entirely indoors.
From autonomous solar trackers and flexible vehicle skins to indoor energy harvesting and mobile recycling units, the focus shifted toward making solar more adaptable, efficient, and practical across real-world conditions.
These seven technologies stood out for how they rethink the role of solar energy, not as a single installation, but as an active, integrated part of modern infrastructure.
1. Jackery “Living Solar” ecosystem (Solar Mars Bot & Solar Gazebo)
Jackery’s CES 2026 demo was a shift from passive solar hardware to an active, autonomous energy system. At the center is the Solar Mars Bot, a rugged four-wheeled rover fitted with 300W auto-retractable solar panels. Using computer vision and light-tracking sensors, the bot continuously repositions itself to capture peak sunlight throughout the day, eliminating the alignment losses common in conventional setups.
This mobile system was unveiled alongside the Solar Gazebo, a permanent outdoor structure featuring a 2,000W louvered solar roof capable of producing up to 10kWh daily. By automating positioning and light tracking, Jackery reduces the need for manual optimization while maintaining consistent energy output across changing conditions. Together, the systems show how automation can improve solar performance without increasing user complexity.
2. Blue device nanoparticle solar smart windows
Blue Device addressed one of smart glass’s biggest adoption hurdles at CES 2026. Wiring. Its Nanoparticle Solar Smart Windows integrate a patented liquid nanoparticle layer that both generates power and dynamically adjusts tint, all without internal electrical connections. The windows are fully self-powered, harvesting energy from sunlight and even low-intensity indoor LED lighting.
Performance data shows they can reduce a building’s total energy consumption by 20-40% by actively managing heat gain and glare. The key innovation lies in their plug-and-play architecture. By removing the need for electrical retrofitting, Blue Device cuts installation costs by over 50%, making large-scale deployment economically viable for existing buildings.
Each window effectively becomes an independent energy-producing unit, transforming façades into distributed power systems and bringing the idea of energy-positive architecture closer to practical reality.
BiLight Innovations introduced one of the most visually striking solar concepts at CES 2026 with its rollable perovskite photovoltaic curtain. Measuring just 0.1mm thick and weighing under 150g per square meter, the solar scroll can be stored in a compact tube and deployed like a window shade.
Despite its minimal form factor, it achieves over 18% conversion efficiency and performs well under low-light conditions, including indoor lighting and overcast skies. The use of flexible perovskite materials allows solar generation to move beyond rigid panels into soft, adaptable surfaces.
Designed to function as both a shading element and a power source for IoT devices or portable electronics, the scroll reframes solar as a smart textile rather than industrial hardware.
4. Dracula Technologies LAYER® V2.0 Indoor OPV
Unveiled at the French Tech Pavilion, Dracula Technologies’ LAYER® V2.0 advances the push toward battery-free electronics. The organic photovoltaic system delivers a 30% performance improvement over its predecessor by using proprietary inkjet-printed OPV inks optimized for low-light environments.
Capable of harvesting energy from indoor lighting as low as 500 lux, the technology replaces copper bus bars with screen-printed silver, improving both aesthetics and integration flexibility. LAYER® V2.0 is designed to continuously power sensors, smart locks, and AI vision devices using ambient light alone.
This approach targets one of IoT’s biggest sustainability challenges. The reliance on disposable batteries. By enabling devices that are effectively “always on” without charging or replacement cycles, Dracula Technologies positions indoor solar as a foundational layer for long-term, low-maintenance connected systems.
5. Solarstic polymer-based vehicle-integrated solar (VIS)
Solarstic, a spinoff from Hyundai’s ZER01NE accelerator, tackled vehicle-integrated solar at CES 2026 with a material-first rethink. Instead of rigid glass panels, the company’s solar modules are made from lightweight, moldable polymers that conform to a vehicle’s hood, roof, and trunk without compromising aerodynamics.
These solar skins are durable enough to meet automotive safety standards and can add up to 15 miles of driving range per day through passive energy harvesting. The innovation lies in treating the car’s body as an active energy surface rather than a static shell. By working with manufacturers early in the design process, Solarstic aims to make integrated solar a factory-standard feature rather than a niche add-on, potentially enabling solar-assisted EVs to become mainstream as early as the 2027 model year.
6. SolreBorn mobile on-site solar recycling system
SolreBorn addressed a less visible but critical challenge at CES 2026. Solar panel waste. Its truck-mounted recycling system processes decommissioned panels directly at solar farms, eliminating the need for long-distance transport. Using a patented glass delamination technique, the system separates aluminum frames and high-purity glass without crushing, preserving material quality.
Operating at 35kWh per hour, it can process up to 2.5 tons of panels daily while recovering 95% of raw materials. By handling recycling on-site, SolreBorn reduces transportation emissions and costs by 85%. This mobile approach turns end-of-life solar management into a viable circular-economy model, ensuring that large-scale renewable deployments remain sustainable not only in operation but throughout their entire lifecycle.
7. Lens technology aerospace-grade ultra-thin glass (UTG)
Lens Technology extended its expertise beyond consumer electronics at CES 2026, showcasing aerospace-grade ultra-thin glass for satellite solar arrays. Measuring just 30–50 micrometers thick, the glass can be rolled with a bending radius as tight as R1.5mm, enabling compact stowage of large solar wings inside rocket fairings.
Unlike polymer covers used in current flexible arrays, this inorganic glass resists atomic oxygen and ultraviolet radiation in low Earth orbit, preventing degradation over time. The innovation combines the durability of rigid glass with the flexibility required for roll-out solar architectures.
By extending the operational lifespan of satellite power systems, Lens Technology’s UTG plays a key role in supporting next-generation communication and space infrastructure, underscoring how solar innovation at CES now extends well beyond Earth itself.
For ongoing news, in-depth reporting, and key developments from CES 2026, read the IE team’s coverage here.
