International Clean Energy Inc. (ICE), founded by a team of seasoned experts in renewable energies in collaboration with top-performing investment advisors, operates as a holding corporation focused on sustainable technologies.

ICE invests in disruptive projects across water, wind, solar, and hydrogen energy sectors, encompassing the production, storage, and distribution of energy.

ICE holds exclusive rights to advanced technologies and national or international sales rights for high-performance wind turbines, water turbines, nano-coated solar panels, and hydrogen-fueled power plants for both residential and industrial applications.

Decentralized Renewable Energy

In ‘The Third Industrial Revolution’, Jeremy Rifkin outlines a vision for a sustainable future driven by renewable energy and digital connectivity. The Third Industrial Revolution (TIR) is characterized by decentralized renewable energy, smart grids, and digital technologies reshaping how energy is produced and consumed.

Key aspects related to clean energy:

Moving away from fossil fuels to wind, solar, and other renewables.

Energy Internet: A smart grid where individuals and businesses generate their own energy and share it in a distributed network, similar to how the internet operates.

Hydrogen & Storage Solutions: Hydrogen and advanced battery storage help balance supply and demand in renewable energy systems.

Smart Infrastructure: Buildings become energy producers, and cities transform into interconnected, sustainable ecosystems.

At ICE, we envision a world where democratized energy leads to economic inclusion, reduced carbon emissions, and a shift away from centralized fossil fuel industries.

Directed & Produced by Richard Ballard
Animation by Florian Runge & Anna Nowakowska

AirLoop Wind Generator Technology: Harnessing Wind Power with Unmatched Efficiency

The AirLoop wind generator represents a breakthrough in renewable energy technology, designed to deliver reliable, cost-effective power generation even in the most challenging environments. Combining cutting-edge engineering with a compact, user-friendly design, AirLoop redefines accessibility to wind energy for urban, suburban, and remote applications.

A New Era of Decentralized Energy

AirLoop’s blend of high efficiency, affordability, and universal adaptability positions it as a game-changer for decentralized energy systems. Whether supplementing household electricity, powering small businesses, or supporting remote infrastructure, AirLoop empowers users to harness wind energy with unprecedented ease and reliability.

Embrace the future of wind energy with AirLoop - where innovation meets accessibility, and every breeze becomes a source of power.

R₂H₂ Hydrogen Energy and Storage System

The hydrogen energy supply system is based on the efficient production of hydrogen using a two-stage process:

In the first stage, oxyhydrogen gas is produced. In the second stage, by applying voltage between the molecules and using high frequencies, the hydrogen and oxygen molecules are separated, creating hydrogen plasma. The additional voltage generated during this process is reintegrated into the system, reducing energy consumption and making hydrogen production more economical.

The hydrogen, produced at a maximum pressure level of 3 bar, must be cooled down before being stored in our energy storage cells, which function as solid-state storage units. The hydrogen atoms can be released from the solid-state storage simply by raising the temperature.

The hydrogen, now back in gaseous form, is fed into a fuel cell, where it is converted into electrical energy - without CO2 emissions, by-products, or waste, apart from a small amount of condensate.

All the above processes are managed through an electronic control system, enabling the entire installation to operate fully automatically and without supervision.

Nano-Coated Solar Panels: A Smarter, More Efficient Solar Solution

At SOLARIO, we are combining the best of nano technology with solar technology. Nano-coated solar panels represent the next generation of photovoltaic technology. By applying advanced nanomaterials to the panel surface, we significantly boost light absorption, reduce reflection losses, and improve performance in low-light conditions.

Key Benefits Over Traditional PV:

Higher Efficiency - Nano-coatings capture more sunlight and convert it into energy more effectively, even on cloudy days or at sharp angles.

Lower Production Costs - With fewer materials needed and simplified manufacturing, nano-coated panels are more affordable to produce.

Self-Cleaning & Durable - Hydrophobic nano-layers repel dust and water, reducing maintenance and extending panel lifespan.

With nanotechnology, solar becomes smarter, more efficient, and more accessible than ever before.

Multiple Options

Thanks to the nano-coating, literally any surface can be converted into a solar panel: walkways, benches, roofs, facades, even windows can be used for collecting energy.

Smart Surfaces with Nanotechnology Coatings

Nanotechnology is revolutionizing how we interact with surfaces by transforming them into multi-functional assets. Through ultra-thin, invisible coatings made of engineered nanomaterials, any surface - whether metal, glass, plastic, or fabric—can be enhanced with a wide range of advanced functions.

One Surface - Infinite Possibilities

Using nanotechnology, we can coat surfaces to:

• Light up with integrated nano-LED systems.
• Heat or cool through thermoregulating nano-layers.
• Harvest solar energy using transparent photovoltaic coatings.
• Store energy in surface-integrated nano-capacitors or flexible battery layers.

Stackable Nano-Layers for Combined Functions

What makes this approach truly powerful is the ability to stack multiple nano-layers, each engineered for a specific function. A single surface can therefore:

• Generate solar energy during the day. Store that energy for later use.
• Provide lighting or heating from the stored energy.
• Adapt its temperature based on surrounding conditions.

Each layer is just a few nanometers thick and designed to work harmoniously with others, enabling seamless integration without compromising the original look or feel of the surface.

Use Cases Across Industries

Architecture & Construction
Smart facades that collect solar energy, regulate indoor temperatures, and provide ambient lighting - all through nano-coated glass or wall panels.

Automotive
Car bodies coated with layers that self-regulate temperature, harness solar energy to charge batteries, and even offer dynamic surface lighting.

Consumer Electronics
Devices with nano-coatings that not only protect but also power small components and regulate heat passively.

Wearable Technology
Clothing with nanolayers for solar energy collection, body heat regulation, and even integrated LED visibility strips.

Furniture & Interior Design
Tables or countertops that light up on command, warm up in cold weather, or wirelessly charge devices - thanks to multi-functional coatings.

A Future Coated in Innovation
Nanotechnology is unlocking a new era of functional design. Whether you're building smart infrastructure, designing next-gen products, or simply looking to enhance everyday materials—multi-functional nano-coatings offer scalable, sustainable, and visually seamless solutions.