superhydrophobic materials aprt
DESCRIPTION
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SuperhydrophobicMaterials
Researcher: Dr. John T. SimpsonCommercialization Manager: Alex DeTranaPresenter: Shawn Carson
3 Managed by UT-Battellefor the U.S. Department of Energy
Problem
Biofouling:• Adds 330 lbs/meter2 in just 6
months• $70,000 – cost to clean a ship hull• 40 – 50% increased fuel cost• $2.1 billion – annual cost to US
Navy
4 Managed by UT-Battellefor the U.S. Department of Energy
Problem
Pipe Corrosion and Fouling:• $6 – 8 billion –
transmission pipelines• $276 billion – residential
plumbing costs
Bridge Corrosion:Annual cost of US Bridges: $7 billion
5 Managed by UT-Battellefor the U.S. Department of Energy
Problem
Aircraft Deicing:$5,000 per aircraft
Power Lines :One winter storm -$5 billion
6 Managed by UT-Battellefor the U.S. Department of Energy
Solution
Superhydrophobic – contact angle with a drop of water that exceeds 150 degrees
7 Managed by UT-Battellefor the U.S. Department of Energy
Roughening a hydrophobic surface increases the effective contact angle
Solution
Droplet on a normal hydrophobic surface Droplet on a superhydrophobic surface
8 Managed by UT-Battellefor the U.S. Department of Energy
SEM image of cones > 1 million spikes per cm2
Technology
Dry etch silicon process
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Phased-Separated SpinodalSuperhydrophobic Glass Powder
Phase Separating Glass
Phase-Separated Spinodal Structure
Crushed Glass Powder↓
Heat Treatment
Acid Etched Powder
Apply Self -Assembled
Monolayer(SAM)
SuperhydrophobicGlass Powder↓
10 Managed by UT-Battellefor the U.S. Department of Energy
SEM Image of Superhydrophobic Glass Powder
12 Managed by UT-Battellefor the U.S. Department of Energy
Technology• Three individual material technologies
– Spinodal Glass – dependent upon ability to manufacture glass– Silica Nanoparticles – manufacturing process needs scaling– Diatomaceous Earth – fossilized freshwater organisms and
marine life• 1% of the cost of other methods• Plentiful raw material• Non-toxic process
13 Managed by UT-Battellefor the U.S. Department of Energy
Product(s)• Coatings
– Applications• Anti-fouling• Anti-condensation• Anti-friction• Anti-ice• Anti-clotting• Anti-corrosion• Mildew and mold resistance
• Fabrics• Sealants• Electronics• Evaporative Desalination
14 Managed by UT-Battellefor the U.S. Department of Energy
Markets
• Coatings– Range of pricing $10 - $90/gal– Protective coatings global market - $1.13
billion with 3.4% CAGR– Global marine coatings - $4.7 billion
• Corrosion Loss in US - $7 billion• High performance fabrics US - $392
million by 2012
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Coated Cables Uncoated Cables
Tested Applications: Anti - Icing
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Lightly Washed Navy Radome Samples
Uncoated Reference Sample (with Barnacles) Modified SH Coating
Tested Applications: Anti - Icing
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Two images of a 4” square steel plate; the right side of the plate is uncoated, while the left side was treated with a modified SH coating.
Steel Plate at day 1 Steel Plate at day 60
Tested Applications: Anti - Corrosion
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Tested Applications: Anti - Salination
Uncoated PanAluminum Pan with Super Hydrophobic
Coating
20 Managed by UT-Battellefor the U.S. Department of Energy
Competition:
Product Name Manufacturer Relevance
SuperhydrophobicCoating
Sandia National Laboratory - USA
$10/gal, 172o contact angleSol-gel chemistry
Nanotechnologies Ross Technologies $60/gal.Consumer products
SuperhydrophobicAntifouling Coating
Gelwell Biotech Corporation - TAIWAN
Drag reduction, AntifoulingPolymer substrates
Fluorothane Cytonix Corporation - USA 140o Contact angle5 – 20 year lifetimeAerosol coatings
Thermablock Microphase coatings, Inc. -USA
High temperature, anticorrosion coatingGlass microsheres
ORNL Technology exceeds these products in performance and a fraction of the cost
21 Managed by UT-Battellefor the U.S. Department of Energy
Business Model• Value Proposition: Manufacture coatings at 1% of the
cost of current methods• Enabling technology – material producer• GOAL: supplier of superhydrophobic coatings• Key Development Partner – Distributor• Key resources – Chemical Engineer, Research
collaboration• Market Entry Strategy
– Niche– Development partnership with major customer
22 Managed by UT-Battellefor the U.S. Department of Energy
Strategic Timeline
CompanyStart
R&D Funding And License
6 Months
Beta Product Development
Year 1
Scale UpFundingYear 1.5
First Exit Opportunity
Year 2.5
Secure Manufacturing
PartnershipYear 2
Launch Next MarketYear 3
23 Managed by UT-Battellefor the U.S. Department of Energy
Summary• Continuing research to improve bonding techniques• ORNL is available to collaborate on specific end uses• Broad application IP position available for license • Application for lining of pipes has been licensed• Diatomaceous Earth (DE) has little demonstrated
competition and represents a significant cost breakthrough
24 Managed by UT-Battellefor the U.S. Department of Energy
For more information about licensing this technology please contact:
Alex DeTrana, Commercialization [email protected]