New Publications and Research
Tsai, S., Ashter, A., Ada, E., Mead, J., Barry, C., Ellenbecker, M., "Airborne Nanoparticle Release Associated with the Compounding of Nanocomposites using Nanoalumina as Fillers," Journal of Aerosol and Air Quality Research, Vol. 8, No. 2, 160-177, June 2008.
Tsai, S., Ada, E., Isaacs, J., Ellenbecker, M., "Airborne nanoparticle Exposures Associated with the Manual Handling of Nanoalumina and Nanosilver in Fume Hoods," Journal of Nanoparticle Research, Special Issue, July 2008.
Tsai, S., Ada, E., Isaacs, J., Ellenbecker, M., "Airborne Nanoparticle Exposures Associated with the Manual Handling of Nanoalumina and Nanosilver in Fume Hoods," Journal of Nanoparticle Research, Volume 11, Issue 1, Page 147, 2009.
Tsai, S., Ashter, A., Ada, E., Mead, J., Barry, C., Ellenbecker, M., "Control of Airborne Nanoparticles Release during Compounding of Polymer Nanocomposites," NANO 3(4):301-309 (2008).
Tsai, S., Hofmann, M., Kong, J., Hallock, M., Ada, E., Ellenbecker, M., " Nanoparticle Release during Synthesis of Carbon Nanotube and the Application of Filtration", Environmental Science and Technology, July 01, 43 (15), pp 6017–6023, 2009.
Tsai, S., Huang, RF., Ellenbecker, M., "Airborne Nanoparticle Exposures while Using Conventional, Constant Velocity and Air-Curtain Isolated Hoods", Annals of Occupational Hygiene, DOI: 10.1093/annhyg/mep074, November, 2009.
Ashter, A., S. Tsai, Lee, J.S., M. J. Ellenbecker, J. Mead, and C. Barry, "Effects of Nanoparticle Feed Location during Nanocomposite Compounding," Polymer Eng. Sci. J. 50(1): 154-64 (2009).
The 49th Navy and Marine Corps Public Health Conference, Virginia, March 19-25, 2010. www-nmcphc.med.navy.mil/Public_Health_Conference/Conference10//
Dr. Ellenbecker and Dr. Tsai are invited to give two classes.
American Industrial Hygiene Conference (AIHce), Denver, May 22-27, 2010.
Dr. Tsai will give two oral presentations in the session titled Nanotechnology, scheduled for May 26, 2010 10:00 a.m.- noon.
In addition to evaluating exposures at the Center for High-Rate Nanotechnolgoy (CHN), we perform research at other laboratories and industrial sites. We have evaluated exposure to nanomaterials for various manufacturing processes and published results in several journal articles. Our expertise can provide interested companies and laboratories a comprehensive investigation into their exposures to nanomaterials.
Our research to date has covered the following topics:
- Evaluation of local exhaust ventilation system for the use of nanoparticles.
- Exposure assessments and environmental release at various productions associated with various applications of nanomaterials use.
- Design and evaluation of engineering control for nanomaterial applications.
- Simulation of airflow structure associated with aerosol nanoparticles.
- Exposure assessment and skin toxicity associated with the use of quantum dots.
- Evaluation of sampling devices to aerosol nanoparticles.
For example, our research has shown that not every fume hood can protect workers against exposure to nanoparticles. Please contact Dr. Tsai for more information regarding the fume hood research.
The first paper reporting the investigation concerning the fume hood use for handling nanomaterials, entitled "Airborne nanoparticle exposures associated with the manual handling of nanoalumina and nanosilver in fume hoods," was published in Journal of Nanoparticle Research. The Power Point slides from that presentation can be downloaded by clicking the title here: Airborne Nanoparticle Exposures Associated with the Manual Handling of Nanoalumina in Fume Hoods.
We have recently published a second paper in the Annals of occupational Hygiene, entitled "Airborne Nanoparticle Exposures while Using Conventional, Constant Velocity and Air-Curtain Isolated Hoods." This paper extended the research from the first paper to include an evaluation ofthe performance of a new hood designed by Prof. Huang at the National Technical University of Science and Technology in Taipei, Taiwan. Prof. Huang donated a prototype hood to our labs, and we found that it works extremely well when used for the handling of nanoparticle powders.
More information about our research will be available later, for immediate information about research results, please contact Dr. Candace Tsai.
The CHN has formed the Nanomaterials and Health Consortium (CHN-NHC), which provides an opportunity for interested industry participants who are interested in the evaluation of exposure to nanomaterials, research into nanomaterials and health issues, and the development of best practices for working with nanoparticles. We welcome industries to join our membership and extend horizon of research. Our brochure describes the benefits to the participants and our capabilities. Please contact Dr. Ellenbecker or Dr. Tsai for more information about CHN-NHC.
The newsletter titled "The Need for a Comprehensive Nanoparticle Monitoring Strategy" by Dr. Ellenbecker and Dr. Tsai.
More information regarding our qualification and facilities for research can be obtained from our "Brochure for CHN Nanomaterial Health Consortium (CHN-NHC)".