LOADING NEXORASIM...
Light + Heat = Power
ARCSTASIS™
REVOLUTIONIZING SOLAR ENERGY
PHOTON + PHONON HYBRID TECHNOLOGY
Capturing both light and heat energy for unprecedented efficiency.
More power. Less waste. The future of sustainable energy.
BREAKTHROUGH
SUSTAINABLE
INNOVATIVE
EFFICIENT
2X
ENERGY CAPTURE
40%
MORE EFFICIENT
ZERO
WASTE HEAT
SPACE
READY
HOW IT WORKS
Our hybrid solar panels capture more energy from sunlight than ever before, turning what was once wasted into usable power.
PHOTON_001
PHOTON CAPTURE
Advanced light absorption technology that captures visible and near-infrared light with exceptional efficiency, converting solar radiation directly into clean electricity.
efficiency:High
spectrum:Full Range
conversion:Direct
output:Optimized
ACTIVE
CLICK TO LEARN MORE
PHONON_002
PHONON HARVESTING
Revolutionary heat recovery system that transforms thermal energy into usable power, turning what was once wasted heat into additional electricity output.
OPERATIONAL
CLICK TO LEARN MORE
HYBRID_003
HYBRID SYNERGY
Seamless integration of both photon and phonon systems creates a unified energy solution that maximizes total power output while minimizing complexity.
READY
CLICK TO LEARN MORE
ENERGY CONVERSION FLOW
SUNLIGHT
P+P
HYBRID PANELCLEAN POWER
TECHNOLOGY GALLERY
Explore the ARCSTASIS photon-phonon hybrid solar panel system designed for space applications
01 / 08
Hexagonal Panel Array
AUTO
KEY BENEFITS
Why NANOGEIOS Laboratory hybrid solar technology is the smart choice for space missions
EXTENDED MISSION POWER
Boosts power output for longer missions, enabling spacecraft and satellites to operate far beyond their original mission parameters.
Higher OutputLonger DurationReliable PowerDeep Space Ready
ADVANTAGES:
More science data
Extended operations
Greater ROI
Mission success
REDUCED COOLING NEEDS
By converting heat into power instead of requiring dissipation, our panels dramatically reduce the need for bulky and complex cooling systems.
EXTREME RELIABILITY
Engineered to perform flawlessly in the harshest conditions of space - extreme temperatures, radiation, and micrometeorite exposure.
SUSTAINABLE INNOVATION
Our technology represents the next evolution in clean, renewable power generation, enabling longer and more ambitious space missions.
PANEL CONCEPT
LIGHT CAPTURE
FULL
spectrum
HEAT RECOVERY
MAX
efficiency
TOTAL OUTPUT
+40%
vs traditional
WASTE ENERGY
NEAR 0
heat loss
INTRODUCTION
NANOGEIOS LABORATORY
Pioneering the future of space energy with Photon + Phonon hybrid technology
ARCSTASIS Photon + Phonon Hybrid Solar Panel Technology
INNOVATION TIMELINE
From breakthrough concept to orbital deployment—follow the evolution of NANOGEIOS Laboratory's revolutionary technology
PHASE 1
CONCEPT & RESEARCH
Theoretical foundation of Photon + Phonon hybrid energy capture
LEARN MORE
PHASE 2
LABORATORY VALIDATION
Proof-of-concept prototypes demonstrate 40%+ efficiency gains
LEARN MORE
PHASE 3
SPACE QUALIFICATION
Rigorous testing for extreme space environments
LEARN MORE
PHASE 4
ORBITAL DEPLOYMENT
First commercial missions powering the next generation of spacecraft
LEARN MORE
Ready to power your next space mission?
PARTNER WITH USAPPLICATIONS
From satellites in orbit to missions exploring the outer solar system and future bases on distant worlds
USE CASES
ACTIVE DEVELOPMENT
SATELLITES & STATIONS
DEEP SPACE MISSIONS
ORBITAL PLATFORMS
LUNAR & PLANETARY BASES
SATELLITES & STATIONS
Power communication satellites, research stations, and orbital platforms with reliable, high-efficiency solar energy that lasts longer.
duration:Extended
reliability:99.9%
maintenance:Minimal
coverage:Global
PRIMARY
DETAILS
DEEP SPACE MISSIONS
Enable exploration throughout the solar system with panels that generate more power even as sunlight diminishes in the outer regions.
range:Solar System
power:Consistent
duration:Decades
science:Enhanced
EXPLORATION
DETAILS
ORBITAL PLATFORMS
Support large-scale orbital infrastructure including manufacturing facilities, research labs, and habitation modules with abundant clean power.
capacity:High
scalability:Modular
efficiency:Optimal
growth:Ready
INFRASTRUCTURE
DETAILS
LUNAR & PLANETARY BASES
Power future outposts on the Moon, Mars, and beyond with technology designed to perform in extreme extraterrestrial environments.
environment:Extreme
adaptability:Universal
output:Optimized
durability:Maximum
FUTURE READY
DETAILS
TECHNOLOGY OVERVIEW
SUN
ENERGY SOURCELIGHT
PHOTONSHYBRID
NANOGEIOS PANELHEAT
PHONONSPOWER
CLEAN ELECTRICITYDUAL
ENERGY CAPTURE
+40%
MORE EFFICIENCY
ZERO
WASTED HEAT
ADVANCED MATERIALS SCIENCE
NANOTECHNOLOGY
Nanogeios Laboratory leads in nanotechnology innovation, pioneering solutions that bridge geothermal energy systems with aerospace applications. By harnessing nanoparticles derived from geothermal technologies, we create advanced materials that enhance energy efficiency and power generation.
HOW WE INNOVATE WITH NANOTECHNOLOGY
Our laboratory specializes in developing nanoparticle-based composites that originate from geothermal heat extraction methods. These innovations are adapted for space PV panels, where they improve heat capture and conversion, resulting in greater energy yield and reliable power supply. Our approach integrates nanoscale engineering to optimize thermal management, enabling breakthroughs in space photovoltaic panels that deliver superior performance in extreme environments.
NANOPARTICLE INTEGRATION
We utilize specialized nanoparticles to boost thermal conductivity, allowing efficient heat transfer and recovery. This adaptation from geothermal systems ensures that space panels convert more solar input into usable energy, reducing waste and increasing overall output.
Heat Transfer
Enhanced
Energy Conversion
Optimized
EXPLORE DETAILS
QUANTUM-ENABLED PATHWAYS
Through precise nanoscale design, we create pathways that facilitate controlled energy flow. Drawing from geothermal applications, this technology minimizes losses and supports stable operations, providing space missions with enhanced power density and endurance.
Energy Loss
Minimized
Stability
Superior
EXPLORE DETAILS
STORAGE EXCELLENCE
Our nanoparticle matrices enable high-efficiency energy storage, maintaining integrity over extended cycles. Applied to space PV panels, this results in consistent power availability, even during periods of low solar exposure, such as orbital eclipses.
Storage Efficiency
High
Cycle Integrity
Preserved
EXPLORE DETAILS
SPACE PV ADVANCEMENT
Panels equipped with our innovations generate up to 50% more power from the same solar input, supporting demanding applications like satellite operations and space stations. Enhanced thermal stability reduces degradation, extending panel lifespan.
Power Increase
Up to 50%
Durability
Superior
EXPLORE DETAILS
BENEFITS FOR SPACE PV PANELS
50%
INCREASED POWER
Panels generate up to 50% more power from the same solar input, supporting demanding satellite operations and space stations.
MAX
SUPERIOR DURABILITY
Enhanced thermal stability reduces degradation, extending panel lifespan and minimizing maintenance in harsh vacuum conditions.
OPT
EFFICIENCY GAINS
Optimized nanoparticle structures enable compact designs with reduced radiator requirements, lowering mission costs and mass.
This fusion of geothermal nanotechnology with space PV technology positions Nanogeios Laboratory at the forefront of sustainable energy solutions, driving innovation for future explorations.
CONTACT NANOGEIOS LABORATORYNANOGEIOS LABORATORY
TECHNICAL SPECIFICATIONS
Advanced technology developed by NANOGEIOS Laboratory for GEIOS Technologies, focusing on efficient heat management and energy conversion for space applications.
CORE FUNCTIONS
Capturing thermal energy through engineered transport pathways
Storing excess heat in a stable matrix for controlled release
Maintaining consistent output through dynamic load balancing
Real-time monitoring and adjustment for optimal performance
Precise energy transduction without structural compromise
Enhanced permeability while preserving system integrity
ENHANCED THERMAL CONDUCTIVITY
Composite architecture with specialized nanoscale constituents delivers 166-336% improved thermal performance.
Performance Gain
166-336%
Heat Transfer
Superior
ENHANCED POWER SUPPLY
Multi-mode conversion mechanisms maximize energy yield through optimized transduction processes.
Conversion Modes
Multi-Mode
Efficiency Level
Unprecedented
RETENTION CAPABILITIES
94% efficiency in maintaining stored thermal energy with dual-chamber design for thermal equilibrium.
Retention Efficiency
94%
Degradation Rate
<0.0001%/cycle
ISSUES ADDRESSED
Resolves output instability, structural risks, and cycling limitations inherent to traditional systems.
Output Stability
Consistent
Structural Safety
Enhanced
TECHNOLOGY BENEFITS
1
RELIABILITY
Improved system reliability and extended operational lifespan through dynamic load balancing
2
SAFETY
Enhanced environmental safety through non-damaging methods, reducing structural risks
3
SUSTAINABILITY
Supports sustainable infrastructure by minimizing operational challenges and maximizing efficiency
Interested in learning more about our technical capabilities?
REQUEST TECHNICAL DOCUMENTATION