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NICE DB

Nanotechnology in City Environments (NICE) Database
By the Center for Nanotechnology in Society, Arizona State University

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  1. Function

Strengthening Construction Materials

Title Updated date Author
Montmorillonite (MMT) Nanoclays in Ashpalt 06/03/2013 - 14:24 Tai Wallace
Iron Oxide Nanoparticles as Additives in Construction Materials and Industrial Coatings 06/03/2013 - 15:19 Rider Foley, Tai Wallace
Coupled Insulation and Fire Protection—Pyrogel 04/16/2014 - 14:06 Rider Foley, Tai Wallace
Carbon Nanotubes (CNT) in Construction Material Reinforcement 04/21/2013 - 20:30
Carbon Nanotubes (CNT) in Ceramic Matrix Composites 10/03/2013 - 11:54 Tai Wallace
Nanostructured Aluminum Foam Sandwich Panels 02/18/2014 - 15:18 Tai Wallace, Evan Taylor
Self-repairing Concrete: Resealing cracks via bioactive agents 02/28/2014 - 14:38 Evan Taylor
Self-compacting concrete (SCC) 06/09/2014 - 13:30 Tai Wallace
Flexible Industrial Insulation for Cryogenic Applications--Cryogel Z 03/28/2014 - 13:57 Evan Taylor
Nanocoated Hydrophobic Steel--Aculon 04/21/2013 - 15:08
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    • Anti-Aging (1)
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    • Enhancing Materials (3)
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    • Enzyme Nanocompplex Manufacturing (1)
    • Gene delivery vector (1)
    • Gold nanoparticle-mediated photothermal therapy is a highly specific cancer therapeutic. This therapy provides localized (1)
    • Human Health (1)
    • Human ID Verification (1)
    • Hydrophobicity (1)
    • Identification and Monitoring (9)
    • Improved Efficacy (1)
    • Improved Electrical Conductivity (1)
    • Increased Data Transfer Speed (1)
    • Increased Electricity Reliability (1)
    • Increased Energy Efficiency (1)
    • Increased Food Safety (1)
    • Increased Shelf Life (1)
    • Induce Precipitation (1)
    • Information Exchange (4)
    • Lighting (1)
    • Mimic Organic Molecules (1)
    • Nano-Fabrication (2)
    • Neuroprosthetic (1)
    • Novel (1)
    • Reduced Battery Failure (1)
    • Reduced Energy Consumption (2)
    • Reduced Environmental Impact (2)
    • Reduced Reflectance (2)
    • Removing Air Pollutants (3)
    • Removing Surface Pollutants (3)
    • Skin regeneration (1)
    • Stability (1)
    • Strengthen Construction Materials (1)
    • Strengthening Construction Materials (10)
    • Synthetic Heart (1)
    • These carbon nanotube artificial muscles can elongate further and at faster rates than natural muscles (1)
    • This treatment is better than existing methods of cancer treatment as it is faster (attaches to cancer cell receptors and enters by active and passive transport) (1)
    • Transportation (1)
    • UV Protection (1)
    • UV-Photoreduction of AgNO3 solution generates antibacterial silver nanoparticles on food packaging substrates such as Low-density polyethylene and glass at a low cost (1)
    • Water Proofing (1)
    • Water Recovery (3)
    • Wound Healing (1)
    • and improve patient quality of life. (1)
    • and they also have the ability to actuate at extreme low and high temperatures. (1)
    • and without using reducing agents or toxic stabilizers. (1)
    • has a more localized and direct effect (nanoparticles locate and enter cancer cells to neutralize from within) and are biodegradable (have low toxicity by-products) [1]. (1)
    • in an environmentally sustainable manner (1)
    • reduce side effects (1)
    • targeted therapies that aim to enhance efficacy (1)
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CNS-ASU research, education, and outreach activities are supported by the National Science Foundation under cooperative agreement #0937591.

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