X-SULE®: Transforming surfaces into intelligent thermal and energy systems.

X-SULE® is an advanced conductive thermophysical fluid polymer matrix, entirely formulated and manufactured in Italy using eco-friendly components. Designed as a highly stable technological platform, it enables the integration of thermal, conductive, and energy-related functionalities into a wide range of materials and surfaces.

Unlike conventional solutions often designed for a single application, X-SULE® combines flexibility, electrical conductivity, and thermal performance within a versatile formulation engineered for integration across multiple strategic sectors:

Building & PropTech: It functions as an invisible thermal, hygrometric, and energy-active system for intelligent surfaces.

Energy Harvesting & Advanced Research (X-BREATHE line): It serves as the foundational platform for our patent-pending next-generation generative membranes, currently under advanced development for structural damp mitigation and energy integration.

Clothing & Technical Textiles: It enables wearable thermal regulation and integrated micro-generation technologies within fabrics.

Renewable Energy & Photovoltaics: It supports active thermal management, de-icing, and module protection applications.

Advanced Electronics & Automotive: It enables the development of conductive tracks, flexible circuits, and porous electrode components.

Additional Industrial Applications: Suitable wherever mechanical flexibility, conductive performance, and thermal stability are required.

Maximum Processing and Application Freedom: The formulation is engineered for compatibility with a broad range of manufacturing and application methods, from artisanal processes to industrial-scale production. X-SULE® supports high-precision deposition technologies, including screen printing and custom industrial printing systems, directly onto flexible and macroporous substrates such as non-woven materials.

A Stable and Adaptive Molecular Structure: One of the core strengths of X-SULE® lies in its stable formulation and material architecture, designed to maintain uniform conductive characteristics and three-dimensional flexibility. It is engineered to withstand repeated bending and tensile stress while preserving the natural breathability of host materials.

The Future of Advanced Materials

We are a Deep-Tech company specializing in the research, development, and engineering of advanced materials for thermal and electrical management. Our mission is to transform common surfaces into smart, flexible, and multipurpose systems capable of responding autonomously and sustainably to the challenges of climate change and energy efficiency. Our advanced solutions are born from industrial engineering and proprietary macromolecular formulations, designed to redefine standards across the construction, technical textiles, renewable energy, and electronics sectors.

Our Genesis: The X-SULE® Platform

Every single one of our industrial applications is born from a single, revolutionary laboratory discovery: X-SULE®. X-SULE® is a highly stable, universal fluid matrix with advanced conductive and thermophysical properties. This is not a simple paint, but a technological fluid engineered to bond seamlessly with flexible and microscopic substrates. Supplied in a liquid state, the matrix was created to overcome the historical limitations of traditional conductors: it offers perfectly homogeneous electrical distribution and the unique ability to optimize ambient thermal flows, creating an unprecedented thermal stabilization effect.

Coated Engineering: The XYRA System

The true industrial quantum leap occurs when our matrix meets the engineering of flexible substrates. Through proprietary industrial coating and stabilization processes on macroporous, breathable media, we have brought XYRA and its vertical lines (WALLHOT, X-COOL, TEX-COOL) to life. Traditional heating or shielding systems rely on rigid elements or metallic barriers, which are prone to breakage, thermal shock, and complete air impermeability. Conversely, XYRA coated technology distributes energy evenly in a planar and continuous manner across surfaces that keep their original vapor breathability completely intact, combining absolute mechanical flexibility with structural multifunctionality.

Intellectual Property and Scientific Validation

The value of our technology is protected and certified to ensure maximum security for our industrial and commercial partners.

• Patent Applications for Industrial Invention: The proprietary architectures allowing the integration of our functional matrices onto flexible and macroporous substrates are subject to international patent filings (Patent Pending). This legally protects both our advanced radiant heating lines and our next-generation generative systems.

• Istituto Giordano Certification (Report No. 418518): Our systems have undergone rigorous accelerated thermal aging tests. The scientific results confirm the total absence of structural and performance degradation over time, millimeter-precise heat distribution, and maximum safety of use, as the active heating line operates exclusively at extra-low safety voltage (24V or lower).

Our Vision: Passive Ecological Transition

We believe in a future where energy efficiency does not depend on complex, electricity-hungry machinery, but on the intelligence of the materials that make up the objects and buildings around us. Whether it is permanently eliminating mold from walls by raising the surface temperature past the dew point (WALLHOT), optimizing indoor comfort through advanced passive thermal shielding (X-COOL and TEX-COOL), or de-icing a photovoltaic system to safeguard its yield, our technology works in harmony with the laws of physics. We reduce consumption, lower CO2 emissions, and increase the resilience of both structures and people.

What We Do for Our Partners (B2B Model)

We are not just manufacturers; we are technological partners. We collaborate with industries, general contractors, textile companies, and energy producers for:

• Raw Material Supply: Distribution of the X-SULE® liquid matrix for integration into the customer's existing production lines.

• Product Engineering: Development of custom layouts, substrates, and flexible panels tailored to specific market needs.

• Technology Transfer: Scientific and industrial support for transitioning toward next-generation radiant and passive thermal shielding systems.

PRODUCTS

XYRA – The Complete Balanced System (Hot / Cool)

Our top-of-the-range panel designed for integrated, continuous, and bidirectional building climate management throughout the year.

• Active Winter: Powered at 24V, it transforms into a homogeneous radiant surface that heats environments and rapidly eliminates surface moisture.

• Passive Summer: Acts as an advanced thermal shield, mitigating the summer thermal wave before it spreads into rooms to stabilize indoor comfort with a natural "cave effect".

WALLHOT – The Heat and Drying Specialist (Hot Only)

Specifically engineered for vertical heating, structural remediation, and thermal emergency management.

• Definitive Mold and Condensation Abatement: Installed under plaster or as a breathable wall finish, it raises the wall temperature past the dew point, drying out moisture at the root without creating vapor barriers.

• Logistics and Healthcare: The ideal technology for active heating and countering hypothermia in specialized medical warming blankets and liner systems.

X-COOL – The Building Thermal Shield (Passive Shielding)

Our vertical solution for the construction sector dedicated exclusively to heat mitigation and passive summer comfort.

• High-Capacity Thermal Mitigation: Applied to the inner surfaces of walls and ceilings, it cushions the external heat passing through the masonry, lowering room temperature and recreating a refreshing, stable well-being typical of high-inertia structures.

TEX-COOL – Wearable Passive Climate Control (Textile Protection)

Our technology applied directly to the world of Smart Apparel, defense, and technical sportswear for protection against extreme heat.

• Thermal Shielding on Clothing: The matrix is coated onto the inner side of the fabric to mitigate external heat before it hits the body, regulating the temperature of the air pocket in contact with the skin and protecting against body overheating.

Active De-Icing Systems and Advanced Conductive Components

Our special lines for the energy industry and advanced electronics.

• Back-Module De-Icing: Integration of the coated technology on the back of photovoltaic panels for rapid ice and snow removal, preserving winter energy production.

• Advanced Conductive Components: Utilization of our high-stability matrix on macroporous fibrous substrates to create high-efficiency flexible electrode layouts for energy systems.

ADVANCED R&D

X-BREATHE – Planar Generative Membrane

Advanced R&D Line | Status: Advanced prototyping phase – Patent Pending for Industrial Invention.

X-BREATHE is our native deep-tech architecture for architectural Energy Harvesting and active wall remediation. It represents an ultra-thin planar membrane designed to invert the traditional energy flow, generating an autonomous electrical output directly from environmental interactions.

• The Core Mechanism: The system is engineered as an ultra-thin, flexible planar cell integrated into a highly breathable structural matrix. It activates autonomously in the presence of structural humidity, atmospheric moisture, or condensation. Internal stabilization mechanisms ensure a continuous and constant electrical current generation over time, preventing performance decay during extended operation.

• Active Remediation & Energy Integration: Built entirely on highly vapor-permeable fibrous substrates, the membrane incorporates specialized capillary interfaces designed to intercept rising damp and environmental fluids. By driving its internal process through these fluid pathways, X-Breathe actively manages and dries out wall structures while converting environmental dampness into a scalable electrical current. The modular layout is designed to interface with industrial storage systems to support building energy self-sufficiency.

NEXT – Invisible Edge Photovoltaics

Advanced R&D Line | Status: Engineering / Optical integration phase.

Sharing the exact same philosophy of total structural invisibility, NEXT applies advanced light-guiding technology to architectural solar harvesting. It represents a breakthrough linear solar system engineered to completely eliminate the visual impact and bulk of traditional photovoltaic panels.

• The Linear Edge Mechanism: By exposing only an ultra-thin, millimetric edge to direct sunlight, the system captures ambient solar radiation and channels it internally through a specialized optical medium. This captured light is then distributed laterally onto high-efficiency photovoltaic cells entirely concealed within the core of the structural element.

• Seamless Architectural Integration: Perfectly designed for direct integration inside vertical architectural elements, such as perimeter walls, parapets, structural steps, or partially underground structures where traditional solar installations are esthetically unfeasible or technically impossible.

• Total Core Protection: Because the active photovoltaic components operate fully sealed and embedded inside the building envelope, they are 100% shielded from weather degradation, atmospheric thermal shocks, and mechanical impacts, ensuring unparalleled structural durability.

FIELDS OF APPLICATION / INTEGRATED SOLUTIONS

Thanks to the extraordinary versatility of the X-SULE® fluid platform, the advanced engineering of our functional coated mediums, and the milestone development of our X-BREATHE architecture, we are able to solve complex thermal management, insulation, and distributed energy optimization challenges across multiple strategic sectors through dedicated vertical solutions.

1. Resilient Building, Remediation, and PropTech (Efficiency and Passive Upgrades) The construction sector finds a definitive answer for indoor microclimate management and building envelope resilience within our dedicated architectural lines, targeted precisely at planar climate management, moisture remediation, and high-efficiency thermal balancing.

• Structural Remediation and Mold Control with WALLHOT (Active Line): Installed under plaster or as a breathable wall finish, the system (powered at a safe 24V extra-low voltage) raises the surface temperature of the walls past the dew point. This process eliminates the physical environment required for mold formation at its root and rapidly dries out condensation moisture, without altering the natural vapor permeability of the masonry.

• Passive Summer Climate Control with X-COOL (Passive Shielding): Utilized in a fully passive mode on the inner surfaces of walls and ceilings, it functions as an advanced thermophysical cushion that dampens the external thermal energy passing through the walls during peak solar radiation. By permanently mitigating radiant wall heat, it recreates a refreshing, balanced indoor climate—an authentic "natural cave effect" reminiscent of high-mass historic structures—drastically reducing the dependency on high-energy cooling systems (HVAC).

• Integrated Global Comfort with XYRA (Thermal Balancing System): Our top-of-the-range solution for sustainable architecture and PropTech projects requiring a continuous, bidirectional radiant layout capable of active winter warming and passive summer heat-wave mitigation, ensuring year-round environmental stabilization at minimal operational costs.

1. Smart Apparel, Logistics, and Specialized Protection. In the technical textile, defense, and specialized containment sectors, managing extreme temperatures and integrating field-ready functional capabilities requires ultra-lightweight, high-flexibility media capable of performing under severe operational stress.

• Advanced Heat Mitigation with TEX-COOL (Textile Protection): Applied directly onto the interior side of specialized fabrics, this technology acts as a passive barrier that mitigates external thermal flows before they reach the user. By regulating the microclimate within the air pocket in contact with the skin, it provides immediate thermal relief and minimizes heat stress for operators and high-performance athletes in an autonomous, zero-energy manner.

• Emergency Thermal Management with WALLHOT (Specialized Liners): This active technology can be integrated into high-flexibility, field-deployable equipment such as specialized emergency thermal linings and temporary shelter layouts. Operating exclusively at ultra-low safety voltages, the continuous layout generates immediate, uniform surface warmth while utilizing the natural porosity of the host substrate to ensure proper vapor evacuation.

• Total Structural Resilience: All of our flexible coated solutions are engineered to withstand rigorous cyclic tight bending, multidirectional tensile strain, and extended storage under harsh environmental conditions without experiencing performance decay or structural micro-fractures.

1. Renewable Energy and Photovoltaics (Dual-Action Back-Module Protection) The operational efficiency of photovoltaic systems is heavily penalized by extreme climatic events: winter snow loads halt generation, while extreme summer overheating slashes the overall electrical yield of the cells. Integrating our technology onto the back-surface of the modules addresses both challenges.

• Active Winter De-Icing: Powered at low voltage, the continuous coated layer integrated onto the rear of the panel operates as a uniform heating surface. It rapidly clears accumulated ice and snow, restoring full solar exposure and maximizing winter generation without subjecting the sensitive silicon cells to localized thermal shocks.

• Passive Summer Thermal Mitigation: During peak solar exposure, when extreme ambient temperatures reduce panel efficiency, the system operates as a high-capacity thermal absorber. This passive protection buffers the extreme temperature spikes of the module, protecting its peak electrical performance even under direct, high-intensity summer solar radiation.

1. Advanced Conductive Substrates and Functional Media. The evolution of clean-tech industries requires advanced media capable of ensuring highly stable electrical charge distribution while maintaining an open, macroporous matrix for structural integration.

• High-Permeability Conductive Tracks: Leveraging the total synergy between highly porous fibrous substrates and the exceptional structural stability of the X-SULE® matrix, we engineer planar conductive structures. These layouts are ideal for specialized applications requiring structural flexibility, breathability, and uniform electrical distribution without restricting fluid or gas dynamics.

1. High-Definition Printed Electronics Utilized. in its pure form as a high-stability, fluid technological formulation, the X-SULE® platform delivers outstanding performance in the field of modern flexible electronics and automated processing.

• Flexible Circuits for Advanced Industries: Engineered for precision deposition via industrial printing, screen-printing, or automated spray systems onto ultra-thin, flexible, or porous substrates. It enables the seamless creation of flexible circuits, integrated antenna structures, and specialized interface layouts for automotive and consumer applications, ensuring absolute electrical consistency and total resistance to structural flexing.

Advanced R&D Line

X-BREATHE – Architectural Energy Harvesting & Advanced Remediation

Future Innovation Pipeline | Status: Advanced prototyping phase – Patent Pending for Industrial Invention.

X-BREATHE represents our premier deep-tech pipeline exploring the future of autonomous building envelopes and active structural risanamento. Conceived as an ultra-thin, highly breathable planar membrane, this system is designed to invert traditional energy dynamics by capturing structural interactions and transforming environmental factors directly into useful outputs.

• The Core Functionality: The membrane is engineered as an ultra-thin, flexible planar cell integrated within a vapor-permeable fibrous matrix. The system activates autonomously in the presence of structural humidity, continuous capillary moisture, or condensation flows. Internal stabilization mechanisms are designed to maintain operational stability and constant performance over extended cycles, preventing the typical degradation associated with continuous fluid exposure.

• Active Remediation and Micro-Generation Exploration: Developed on advanced, high-breathability substrates, the architecture incorporates specialized fluid-intercepting interfaces designed to draw and channel moisture away from structural masonry. By driving its internal processes through these natural fluid pathways, X-BREATHE aims to dry out damp walls actively from the inside out. Concurrently, the system explores the conversion of these localized environmental flows into a scalable, low-voltage electrical current, designed to interface with advanced storage setups to support long-term building self-sufficiency and smart grid integration.