Skip to main content Accessibility help
×
Home
  • Get access
    Check if you have access via personal or institutional login
  • Cited by 1
  • Print publication year: 2016
  • Online publication date: January 2017

15 - Opportunities, Trends, and Challenges for Polymer Nanocomposites

from Part Three - Concerns and Outlook

Related content

Powered by UNSILO
1.U.S. National Nanotechnology Initiative official website. http://www.nano.gov (accessed December 23, 2015).
2.“The National Nanotechnology Initiative – Supplement to the President’s Budget for Fiscal Year 2016,” National Science and Technology Council (NSTC), Committee on Technology (CoT), Subcommittee on Nanoscale Science, Engineering, and Technology (NSET), Washington, DC, March 2015.
3.Lucintel, Irving, TX, website: www.lucintel.com.
4.Applied Sciences, Inc., Cedarville, OH, website: www.apsci.com.
5.Vance, M. E., Kuiken, T., Vejerano, E. P., McGinnis, S. P., Hochella, M. F., Jr., et al. (2015). Nanotechnology in the real world: Redeveloping the nanomaterial consumer products inventory. Beilstein Journal of Nanotechnology 6, 17691780.
6.Koo, J. H. (2006). Polymer Nanocomposites – Characterization, Properties, and Applications. New York: McGraw-Hill.
7.Sanchez, C., Julian, B., Belleville, P., and Popall, M. (2005). Applications of hybrid organic-inorganic nanocomposites. Journal of Materials Chemistry 15, 35593592.
8.Sol-Gel Technologies Ltd., Bet Shemesh, Israel. http://www.sol-gel.com.
9.Hazan, I. and Rummel, M., US Patent No. 5,162, 426, 1992.
10.Akamatsu, Y., Takamatus, A., Makita, K., Inaba, H., and Minami, T.. (2001). Preparation of black-colored thin films from silica sol containing metal nitrates by sol-gel method. Journal of Materials Science 36(18), 45034510.
11.Wolter, H. and Storch, W. (1994). A new silane precursor with reduced polymerization shrinkage. Journal of Sol-Gel Science and Technology 2 (1), 9396.
12.Wolter, H., Storch, W., and Ott, H. (1994). Better ceramics through chemistry VI. Materials Research Society Symposium Proceedings 346, 143149.
13.Wolter, H., Glaubitt, W., and Rose, K. (1992). Better ceramics through chemistry V. Materials Research Society Symposium Proceeding 271, 719724.
14.Gellerman, C., Storch, W., and Wolter, H.. (1997). Synthesis and characterization of the organic surface modifications of monodisperse colloidal silica. Journal of Sol-Gel Science and Technology 8(1), 173176.
15.Fujiwara, S. and Sakamoto, T. (1976). Japanese Kokai Patent Application No. 109998 (assigned to Unichika K.K., Japan).
16.Fukushima, Y. and Inagaki, S. (1987). Synthesis of an intercalated compound of montmorillonite and 6-polyamide. Journal of Inclusion Phenomena 5, 473482.
17.Okada, A., Fukushima, Y., Kawasumi, M., Inagaki, S., Usuki, A., et al. (1988). United States Patent No. 4739007 (assigned to Toyota Motor Co., Japan).
18.Kawasumi, M., Kohzaki, M., Kojima, Y., Okada, A., and Kamigaito, O. (1989). United States Patent No. 4810734 (assigned to Toyota Motor Co., Japan).
19.Usuki, A., Kojima, Y., Kawasumi, M., Okada, A., Fukusima, Y., et al. (1993). Synthesis of nylon 6-clay hybrid. Journal of Materials Research 8, 11791184.
20.Southern Clay Products, Gonzales, TX. http://www.scprod.com/gm.html.
21.Nanocomposites New Low-Cost, High-Strength Materials for Automotive Parts, ATP Project 97-02-0047, National Institute of Standards and Technology, Gaithersburg, MD, 1997.
22.Mohanty, A. K., Drzal, L. T., and Misra, M. (2003). Nano reinforcements of bio-based polymers – The hope and the Reality. Polymeric Materials Science & Engineering 88, 6061.
23.Wilkinson, S. L. (2001). All in good taste. Chemical Engineering News, January 22, 61.
24.Beall, G. W. (2001). New Conceptual Model for Interpreting Nanocomposite Behavior. In Polymer-Clay Nanocomposites, Pinnavaia, T. J. and Beall, G. W. (Eds.). New York: Wiley & Sons, pp. 267279.
25.Hay, J. N. and Shaw, S. J., “A Review of Nanocomposites 2000,” abstracted version from http://www.azom.com/details.asp?ArticleID-921.
26.Multilayer Containers Featuring Nano-Nylon MXD6 Barrier Layers with Superior Performance and Clarity, Mitsubishi Gas Co., Inc. and Nanocor, presented at Nava-Pac 2003. http://www.nanocor.com/techpapers.asp:
27.Triton Systems, Inc., Chelmsford, MA. http://www.tritonsys.com.
28.Downing-Perrault, A. (2013). Polymer Nanocomposites Are the Future. University of Wisconsin-Stout. Retrieved from http://www.iopp.org/files/public/DowningPerraultAlyssaUWStroutNanoStructures.pdf.
29.InMat Inc., Hillsborough, NJ. http://www.InMat.com.
30.Bievre, D. and Nakamura, K. (2004). Laminate structure excelling in fuel permeation preventing performance. PCT International Applications, 26. Patent no. WO20004054802.
31.Gilman, J. W. (1999). Flammability and thermal stability studies of polymer layered-silicate (clay) nanocomposites. Applied Clay Science 15, 3149.
32.Nanocor, Inc., Arlington Heights, IL. http://www.nanocor.com.
33.Baksi, S., Basak, P. R., and Biswas, S. (2013). Nanocomposites – Technology Trends & Application Potential. Technology Information, Forecasting and Assessment Council. Retrieved from http://www.tifac.org.in/index.php?option=com_content&view=article&id=523:nanocomposites--technology-trends-a-application-potential&catid=85:publications&Itemid=952.
34.Carbon Black Uses (2013). In International Carbon Black Association. Retrieved from http://www.carbon-black.org/uses.html.
35.Team Innovation (2007). Why Some Rotomolded Tanks are Black in Color – Carbon Black and Plastics. In PolyProcessing Company. Retrieved from http://www.polyprocessing.com/pdf/technical/CarbonBlackandPlastics.pdf.
37.Zhang, S., Wang, H. L, Ong, S. E., Sun, D., and Bui, X. L. (2007). Hard yet tough nanocomposite coatings – Present status and future trends. Plasma Processes and Polymers 4, 219228.
38.Simonsen, J. (2009). Bio-Based Nanocomposites: Challenges and Opportunities. Department of Wood Science & Engineering, Oregon State University, Corvallis, OR. Retrieved from http://www.cof.orst.edu/cof/wse/faculty/simonsen/Nanocomposites.pdf.
39.Polymer nanocomposites drive opportunities in the automotive sector. (2012). In nanowerk. Retrieved from http://www.nanowerk.com/spotlight/spotid=23934.php.
40.Bonsor, K. (2012). How Smart Windows Work. In howstuffworks. Retrieved from http://home.howstuffworks.com/home-improvement/construction/green/smart-window4.htm.
41.The Project on Emerging Nanotechnologies. Consumer Products Inventory. http://www.nanotechproject.org/cpi (accessed December 30, 2015).
42.Jordan, J., Jacob, K. I., Tannenbaum, R., Sharaf, M. A., and Jasiuk, I. (2005). Experimental trends in polymer nanocomposites – a review. Materials Science and Engineering, Part A 393, 111.
43.Karn, B. (2012). NNI Research in NanoEHS, NSF Grantees Meeting Presentation, December 4.
44.BASF Chemical Company Website. http://www.basf.com
45.Berger, M. (2008). NASA Nanotechnology Research into Shape-Shifting Airplanes. June 16. Retrieved from http://www.nanowerk.com/spotlight/spotid=6067.php
46.Al-Zahrani, S., Rahman, A., Ali, I., and Elliethy, R., U.S. Patent No. 2013 0089738.
47.Kim, K. and Park, J., U.S. Patent No. 2013 005643.
48.Downing-Perrault, A. (2013). Polymer Nanocomposites Are the Future. University of Wisconsin-Stout. Retrieved from http://www.iopp.org/files/public/DowningPerraultAlyssaUWStroutNanoStructures.pdf
49.Baksi, S., Basak, P. R., and Biswas, S. (2013). Nanocomposites – Technology Trends & Application Potential. Technology Information, Forecasting and Assessment Council. Retrieved from http://www.tifac.org.in/index.php?option=com_content&view=article&id=523:nanocomposites--technology-trends-a-application-potential&catid=85:publications&Itemid=952
50.Presting, H. and König, U. (2003). Future nanotechnology developments for automotive applications. Materials Science and Engineering, Part C 23, 737741.
51.Polymer nanocomposites drive opportunities in the automotive sector. (2012). In nanowerk. Retrieved from http://www.nanowerk.com/spotlight/spotid=23934.php
52.Nanomaterial Safety Plan (2010). In SLAC National Accelerator Laboratory – Stanford University. Retrieved from http://www-group.slac.stanford.edu/esh/eshmanual/references/hazmatplannano.pdf
53.Weiss, R. (2004). EPA Backs Nanomaterial Safety Research. The Washington Post. Retrieved from http://www.washingtonpost.com/wp-dyn/articles/A43763-2004Nov11.html.
54.Conductive polymers and electronics: Tackling corrosion with nanotechnology (2011). In Enginuity 2011, Lamar University. Retrieved from http://www.lamar.edu/research/research-magazines/enginuity-2011/tackling-corrosion.html