In 2024, the world’s first opaque econiclay BIPV, wihch is non-glass and opaque, will debut on the international stage. PHOMIHOLDING has used a cross-disciplinary innovation approach to integrated photovoltaic technology into zero-carbon coverings, preserving its attractive appearance with natural textures like stone, wood, and brick. This allows every building to function as a solar power station while maintaining its original beauty. Its Zero-Carbon Building Materials Solution will also be unveiled at various exhibitions,such as World Future Energy Summit, Coverings, the smarter E Europe, etc.
World Future Energy Summit
Date: April 16-18,2024
Hall: Abu Dhabi National Exhibition Centre, UAE
Booth: Hall Atrium |A110
Foshan Uniceramics Exhibition
Date: April 18-22,2024
Hall: Tanzhou International Convention and Exhibition Center,Guangdong,China
Booth: Hall 1 |117
Coverings
Date: April 22-25,2024
Hall: Georgia World Congress Center, Atlanta, USA
Booth: Hall C |8649-2
*For more info, please visit www.phomi.com.
Since 2013, PHOMIHOLDING has won the Gold Medal of Invention in the Lépine International Paris Competition, the Gold Award of Asia International Innovative Invention Award, and the Excellent Product Award of China High-tech Fair. In 2024, econiclay BIPV and other new technologies will be deeply concerned by international invention exhibitions such as iENA Nuremberg in Germany and the Lépine International Paris Competition in France.
From micro to macro, econiclay ecological environmental materials (hereinafter referred to as ‘econiclay’) from PHOMIHOLDING, which is rebuilding the order of material science and technology, and its derived zero-carbon coverings show the continuous innovation.
econiclay Basic Material Innovation from Ground Zero
Econiclay is a groundbreaking inorganic powder activation technology that harnesses the power of inorganic solid waste, including soil, stone remnants, and non-metallic tailings, as its core raw materials. These inorganic substances are meticulously gathered, sorted, and finely crushed, transforming them into micro-scale powders. Subsequently, through the use of specialized surface-active agents at low temperatures, these particles are modified, enveloping each one with active components, resulting in a multi-layered network structure, ultimately yielding active inorganic powder.
Econiclay can be hybridized with a wide range of polymer materials, giving rise to diverse organic-inorganic hybrid eco-environmental materials suitable for various industries and specific product performance requirements. These applications span across sectors like building materials, auto parts, casings,leather goods, and more, positioning it as an ideal substitute for traditional plastic products.
Advantages of Zero-Carbon Coverings over Traditional Building Finishes
· Aging Resistance:
Zero-carbon coverings, built on an active inorganic-organic hybrid structure, exhibit exceptional resistance to UV-induced aging. Compared to plastic materials, they enjoy a significantly extended lifespan, reducing the need for frequent replacements and curbing resource wastage.
· Innovation and Adaptability:
The innovative zero-carbon materials, with their active inorganic-organic hybrid structure, creates versatile products to meet application needs across sectors, including construction, furniture, automotive, luggage, etc.They serve as ideal alternatives to ceramics, stone, wood, plastics, and other materials.
· Class A Fire Rating:
Due to its inorganic nature, zero-carbon coverings achieves a Class A fire rating, making it a more competitive choice in public spaces compared to flammable plastics or textile materials, offering higher safety levels.
· Sustainability:
Ⅰ Zero-carbon coverings break free from reliance on limited petroleum and specific mineral resources,fundamentally reducing the detrimental environmental impact of resource extraction.
Ⅱ The low-temperature manufacturing process reduces energy consumption and eliminates abandoned air and water emissions.
Ⅲ As a reusable inorganic solid waste, zero-carbon coverings can be regenerated, reducing its negative environmental impact.
Advantages of econiclay BIPV over solar panels
· Enhanced Aesthetic Appeal:
Econiclay BIPV offers a wider array of styles, colors, and design choices compared to the limited glass texture of traditional solar panels. It includes natural textures like stone, wood, and brick, allowing for customized building designs that seamlessly blend solar power with aesthetics.
· Versatile Application:
Econiclay BIPV can be used in various building types, including homes, commercial structures, and industrial buildings, meeting diverse architectural preferences. Unlike standard solar panels confined to rooftops and glass facades, econiclay BIPV can be integrated into building exteriors and infrastructure, increasing its versatility.
· Reduced Carbon Footprint:
Econiclay BIPV significantly reduces a building’s carbon footprint by decreasing reliance on traditional building materials like fossil fuels, plastics and glass. It turns each building into a solar power station, making the building itself an integral part of energy production, creating more possibilities for energy self-sufficiency.
· Exceptional Aging Resistance:
It utilizes materials derived from econiclay, known for exceptional UV aging resistance. Its lifespan far surpasses that of traditional solar panels with coatings, leading to less frequent replacements and reduced resource waste.
One-stop solution for zero carbon building materials
· Zero-carbon coverings & ecological BIPV & ecological display, which can better solve various materials needed for interior and exterior design of buildings.
If you would like to turn more ‘whimsical’ future visions into reality? This groundbreaking inorganic powder activation technology material, econiclay, and its derivatives deserve more attention.
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Company Name: PHOMIHOLDING
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Country: China
Website: www.phomi.com/