ydnfoam.com-Carbonized Melamine Foam_ A New “Air-to-Water and Carbon Capture” Material Inspired by Nobel Prize MOF Technology _ YDNFoam™.pdf

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The 2025 Nobel Prize in Chemistry honored MOF researchers who enabled breakthroughs in air-to-water harvesting and CO₂ capture. YDNFoam™ is transforming this scientific achievement into industrial-scale innovation through carbonized melamine foam — a next-generation material bridging science a...

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October 20, 2025
Carbonized Melamine Foam: A New “Air-to-Water and
Carbon Capture” Material Inspired by Nobel Prize MOF
Technology | YDNFoam™
www.ydnfoam.com/carbonized-melamine-foam-a-new-air-to-water-and-carbon-capture-material-inspired-by-nobel-
prize-mof-technology-ydnfoam/
From “Harvesting Water from Air” to “Capturing Carbon”:
The Nobel Prize Points to the Future of Carbonized Melamine Foam
— YDNFoam™ Redefines the Sustainable Frontier of Material Science
1. The Nobel Prize Inspiration: Science Changing the Way We Use Air
In October 2025, the Royal Swedish Academy of Sciences awarded the Nobel Prize in
Chemistry to
Susumu Kitagawa (Japan), Richard Robson (Australia), and Omar Yaghi (USA)
for their pioneering discovery of Metal–Organic Frameworks (MOFs) — molecular
structures capable of capturing CO₂ and extracting pure water from desert air.
MOFs are celebrated for their tunable nanoporous networks, allowing precise control over
pore size and chemical affinity at the molecular scale.
They have opened new pathways for:
??????️ Carbon capture and storage, supporting global carbon neutrality;
?????? Water harvesting from air, even under arid conditions;
?????? Gas separation and purification for cleaner industrial processes;
?????? Energy optimization and emission reduction.
This Nobel milestone signals a transformative era —
one where air becomes a new sustainable resource.
2. YDNFoam™ Carbonized Melamine Foam: From Molecular to Carbon Sponge
While MOFs redefine molecular-level science, YDNFoam™ is bringing those principles to
life in scalable engineering form through Carbonized Melamine Foam (CMF).
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Produced under inert atmosphere at around 800°C, melamine foam transforms into a
nitrogen-doped porous carbon network with exceptional structural and functional
properties:
Surface area up to 2000 m²/g
Hierarchical pore distribution (micro + meso + macro)
Excellent photothermal absorption and heat transfer
High chemical stability and mechanical resilience
This “carbon sponge” inherits the adsorption behavior of MOFs but in a robust, industrially
viable form —
a step forward in turning laboratory discoveries into deployable climate technologies.
3. Dual Performance: “Air-to-Water” and “CO₂ Capture”
1️ Air-to-Water (AWH) Systems
When functionalized with hydrophilic nanolayers (e.g., Zr-based MOFs or graphene oxide),
YDNFoam™ CMF captures moisture from even low-humidity air.
Under sunlight or waste heat, the foam releases vapor that condenses into fresh liquid
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water — enabling off-grid water generation in deserts, islands, or remote regions.
2️ CO₂ Capture and Recycling
The nitrogen-doped carbon framework provides polar adsorption sites, allowing strong
interaction with CO₂ molecules.
Performance studies report CO₂ uptake up to 5.4 mmol/g at 0°C, maintaining >95%
efficiency after 500 regeneration cycles.
Applications include:
Industrial exhaust gas purification
Climate-controlled energy storage systems
Air management and CO₂ reduction in data centers
YDNFoam™ CMF thus merges high adsorption efficiency, thermal durability, and
recyclability, offering a sustainable and scalable path toward net-zero operations.
4. MOF × CMF: Where Scientific Discovery Meets Industrial Reality
Property MOF (Metal–Organic
Framework)
CMF (YDNFoam™ Carbonized
Melamine Foam)
Pore Size Nanometer (0.3–2 nm) Micrometer (10–150 μm)
Adsorption
Mechanism
Molecular-level precisionHierarchical + polar physical
adsorption
Water Capture ✅ High (laboratory scale)✅ High (photothermal-assisted)
CO₂ Capture ✅ Excellent (experimental)✅ Stable (scalable)
Mechanical StrengthFragile powder Lightweight, flexible, machinable
Engineering
Feasibility
Lab-only ✅ Mass-producible, low cost
Environmental
Tolerance
Sensitive to humidity ✅ Moisture- and heat-resistant,
halogen-free
?????? Conclusion:
MOFs symbolize scientific innovation, while YDNFoam™ CMF represents industrial
execution.
The next generation — MOF@CMF hybrid composites — will merge the two worlds,
accelerating scalable air-to-water and carbon-capture solutions.
5. YDNFoam™’s Vision: Turning Every Foam into a Sustainable Engine
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At YDNFoam™, we believe materials should not only perform — they should serve the
planet.
As a leader in advanced melamine foam technologies, our mission is clear:
“Engineering sustainability through materials innovation.”
From flame-retardant and acoustic insulation foams to carbonized functional foams,
YDNFoam™ is redefining how lightweight porous materials contribute to energy efficiency
and environmental protection.
Our carbon research aims to transform each piece of foam into an active medium for
atmospheric resource conversion —
harvesting water from the air, capturing carbon from emissions, and enabling circular
sustainability.
6. The Future: From Scientific Discovery to Industrial Transformation
The Nobel Prize represents the spirit of discovery.
YDNFoam™’s Carbonized Melamine Foam embodies the power of implementation.
Looking forward, YDNFoam™ will continue to collaborate with global research institutions,
sustainability pioneers, and engineering partners to advance:
Modular Air-to-Water Harvesting Systems (AWH)
Building-integrated CO₂ Capture Panels
Thermal and acoustic control for energy storage systems
A global carbon-neutral materials ecosystem
We turn scientific innovation into practical solutions —
because at YDNFoam™, materials are the new engines of sustainability.
— YDNFoam™ Materials Science Division
?????? Contact Us
YDNFoam™
?????? Email: [email protected]
?????? Website: www.ydnfoam.com
?????? Phone / WeChat: +86-135-4070-2776
?????? Address: No. 2088, Jiuliting Avenue, Caoqiao Street, Pinghu City, Zhejiang Province,
China
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