University address: Industrial and Manufacturing Engineering




Скачать 58.05 Kb.
НазваниеUniversity address: Industrial and Manufacturing Engineering
Дата конвертации10.02.2013
Размер58.05 Kb.
ТипДокументы


Curriculum Vitae


Tao Liu


September 17, 2012


General Information


University address: Industrial and Manufacturing Engineering
FAMU-FSU College of Engineering
2525 Pottsdamer Street B-373E
Florida State University
Tallahassee, Florida 32310
Phone: (850)645-8996; Fax: (850)410-6342

E-mail address: liutao@eng.fsu.edu


Professional Preparation


2002 Ph.D., Georgia Institute Of Technology. Major: Polymer Science and Engineering. Supervisor: Dr. Robert J. Samuels.


Unspecified Name. (2002). Novel methods for determining the optical constants of anisotropic polymer films - new application of prism wave-guide coupling. Unpublished doctoral dissertation, Georgia Institute Of Technology.


1999 M.S., Georgia Institute of Technology. Major: Polymer. Supervisor: Dr. Robert J. Samuels.


Unspecified Name. (1999). Determination of three-dimensional refractive indices and absorption coefficients of anisotropic polymer films with prism wave-guide coupler. Unpublished master's thesis, Georgia Institute of Technology.


1992 B.S., Tsinghua University. Major: Chemical Engineering.


Postdegree Education and Training


2002–2004 Research Scientist II.


Professional Experience


2007–present Assistant Professor, Industrial and Manufacturing Engineering, Florida State University.


2005–2007 Research Scientist, Battelle Memorial Institute.


2004–2005 Process Engineer, GE Advanced Materials.


2002–2004 Research Scientist II, Georgia Institute of Technology.


1992–1996 Process Engineer, National Silicone Research Center, China.


Honors, Awards, and Prizes


Finalist, American Physical Society Padden Award for Excellent Graduate Student, American Physical Society (APS) (2001).


Current Membership in Professional Organizations


American Chemical Society member

American Physical Society member

Materials Research Society, member


Teaching


Courses Taught


Composite Materials Engineering (EMA5182)

Research Methodology (EIN5130)

Special Topics in Industrial Engineering (EIN5930)

Tool and Process Engineering (EIN4312)

Special Topics in Industrial Engineering (EIN5930)

Composite Materials Engineering (EMA5182)

Manufacturing Systems Engineering (EIN4621)


Curriculum Development


EIN 5930 - Synthesis and Processing of Advanced Materials¶ An introductory graduate course aims at providing the students a basic understanding and up-to-date knowledge on the material structures and design, synthesis methods, and processing technologies of various advanced materials through class lectures, homework assignments, and literature reading and discussions (2009)


Doctoral Committee Chair


Luo, S., doctoral student.

Obitayo, O., doctoral student.

Xiao, Z., doctoral student.


Doctoral Committee Cochair


Fu, X., graduate. (2010). Carbon Nanotube/Carbon Fiber/Polyimide High Temperature Multi-Scale Composites: Manufacturing, Cure Kinetics and Multifunctionality.


Doctoral Committee Member


Smithyman, J., doctoral candidate. (2013).

Dickens, T., doctoral candidate. (2012).

Olawale, D. O., doctoral candidate. (2012).

Van, H., doctoral student.


Master's Committee Chair


Akpanekong, E., graduate. (2012). Fabrication and Evaluation of Polyvinylidene Flouride/Polyvinylalcohol (PVA/PVDF) hybrid membranes for Lithium-air Battery Applications.


Master's Committee Member


Gallagher, P., graduate. (2012).

Smithyman, J. R., graduate. (2010).

Hossieny, N. J., graduate. (2009).

Koo, A. C., student. (2011).


Supervision of Student Research Not Related to Thesis or Dissertation


Markus, S. (2012).


Chan, A. (2011).


Salavani, M. (2011).


Terban, M. (2011).


Mathieu, M. (2010).


Mendoza, A. (2009–10).


Ramirez, D. (2009).


Powell, S. (2008–09).


Worden, M. (2008–09).


Additional Teaching Not Reported Elsewhere


Faculty of IE Department. (2012). THU NUAA summer program - This course is to introduce the students with the fundamentals and advancements in Advanced Materials and Manufacturing. The constituent materials, manufacturing processes and characterization techniques for advanced materials will be discussed. Students will also be provided with lab experiences for advanced materials manufacturing and characterization techniques.


Faculty of IE Department. (2012). FSU RETREAT NSF REU program. NSF.


Faculty of IE Department. (2011). THU NUAA summer program - This course is to introduce the students with the fundamentals and advancements in Advanced Materials and Manufacturing. The constituent materials, manufacturing processes and characterization techniques for advanced materials will be discussed. Students will also be provided with lab experiences for advanced materials manufacturing and characterization techniques.


Faculty of IE Department. (2011). FSU RETREAT NSF REU program. NSF.


Faculty of IE Department. (2010). THU NUAA summer program - This course is to introduce the students with the fundamentals and advancements in Advanced Materials and Manufacturing. The constituent materials, manufacturing processes and characterization techniques for advanced materials will be discussed. Students will also be provided with lab experiences for advanced materials manufacturing and characterization techniques.


Research and Original Creative Work


Publications


Refereed Journal Articles


Li, S., Park, J., Liang, Z., Siegrist, T., Liu, T., Zhang, M., Cheng, Q., Wang, B., & Zhang, C. (2012). In-situ characterization of structural changes and the fraction of aligned carbon nanotube networks produced by stretching. Carbon, 50, 3859 - 3867. doi:10.1016/j.carbon.2012.04.029


Liu, T., & Xiao, Z. (2012). Dynamic light scattering of rigid rods - A universal relationship on the apparent diffusion coefficient as revealed by numerical studies and its use for rod length determination. Macromolecular Chemistry and Physics, 213, 1697 - 1705. doi:10.1002/macp.201200154


Xiao, Z., Gupta, M., Baltas, G., Liu, T., Chae, H., & Kumar, S. (2012). Probe diffusion of SWCNTs in semidilute solutions of polyacrylonitrile homo- and copolymers: effects of topological constraints and polymer/nanorod interactions. Polymer, 9 pp. doi:http://dx.doi.org/10.1016/j.polymer.2012


Zhao, D., Liu, T. *., Park, J., Zhang, M., Chen, J., & Wang, B. (2012). Conductivity enhancement of aerosol-jet printed electronics by using silver nanoparticles ink with carbon nanotubes. Microelectronic Engineering, 96, 71-75. doi:10.1016/j.mee.2012.03.004


Zhao, D., Liu, T., Zhang, M., Liang, R., & Wang, B. (2012). Fabrication and characterization of aerosol-jet printed strain sensors for multifunctional composite structures. Smart Mater. Struct, 21, 8 pp. doi:10.1088/0964-1726/21/11/115008


Ford, E., Minus, M., Liu, T., Choi, J., Jang, S., & Kumar, S. (2011). Influence of SWNTs on the Preferential Alignment of Molecular Moieties in PVA Fibers. Macromolecular Chemistry and Physics, 213, 617 - 626. doi:10.1002/macp.201100534


Liu, T., & Xiao, Z. (2011). Exact and Closed Form Solutions for the Quantum Yield, Exciton Diffusion Length, and Lifetime To Reveal the Universal Behaviors of the Photoluminescence of Defective Single-Walled Carbon Nanotubes. Journal of Physical Chemistry C, 115(34), 16920-16927. doi:10.1021/jp205458t


Chatterjee, J., Liu, T., Wang, B., & Zheng, J. P. (2010). Highly conductive PVA organogel electrolytes for applications of lithium batteries and electrochemical capacitors. Solid State Ionics, Diffusion & Reactions, 181(11-12), 531-535. doi:10.1016/j.ssi.2010.02.020


Fu, X., Zhang, C., Liu, T., Liang, R., & Wang, B. (2010). Carbon nanotube buckypaper to improve fire retardancy of high-temperature/high-performance polymer composites. Nanotechnology, 21(23), 235701 (8 pp.). doi:10.1088/0957-4484/21/23/235701


Jagannathan, S., Liu, T., & Kumar, S. (2010). Pore size control and electrochemical capacitor behavior of chemically activated polyacrylonitrile - Carbon nanotube composite films. Composites Science and Technology, 70, 593 - 598. doi:10.1016/j.compscitech.2009.12.008


Luo, S., Liu, T., & Wang, B. (2010). Comparison of ultrasonication and microfluidization for high throughput and large-scale processing of SWCNT dispersions. Carbon, 48(10), 2992-4. doi:10.1016/j.carbon.2010.04.006


Liu, T., Xiao, Z., & Wang, B. (2009). The exfoliation of SWCNT bundles examined by simultaneous Raman scattering and photoluminescence spectroscopy. Carbon, 47(15), 3529-37. doi:10.1016/j.carbon.2009.08.023


Liu, T., Luo, S., Xiao, Z., Zhang, C., & Wang, B. (2008). Preparative ultracentrifuge method for characterization of carbon nanotube dispersions. Journal of Physical Chemistry C, 112(49), 19193-202. doi:10.1021/jp804720j


Zhou, C., Liu, T., Wang, T., & Kumar, S. (2006). SWNT/PAN/SAN ternary composite – a novel approach for high performance supercapacitor. Polymer, 47, 5831-5837.


Guo, H., Sreekumar, T., Liu, T., Minus, M., & Kumar, S. (2005). Structure and properties of polyacrylonitrile/single wall carbon nanotube composite films. Polymer, 46, 3001 – 3005.


Liu, J., Liu, T., & Kumar, S. (2005). Effect of solvent solubility parameter on SWNT dispersion in PMMA. Polymer, 46, 3419 - 3424.


Liu, T., & Samuels, R. (2004). Physically correct theoretical prism-wave guide coupler model. Journal of the Optical Society of America A, 21, 1322 - 1333.


Sreekumar, T., Liu, T., Min, B., Kumar, S., Hauge, R., & Smalley, R. (2004). Polyacrylonitrile-single wall carbon nanotube composite fibers. Advanced Materials, 16, 58 – 61.


Zhang, X., Liu, T., Sreekumar, T., Kumar, S., Hu, X., & Smith, K. (2004). Gel spinning of PVA/SWNT composite fiber. Polymer, 45, 8801-8807.


Zhang, X., Sreekumar, T., Liu, T., & Kumar, S. (2004). Properties and structure of nitric acid oxidized single wall carbon nanotube films. J. Phys. Chem. B, 108, 16435-16440.


Bhattacharyya, A., Sreekumar, T., Liu, T., Kumar, S., Ericson, L., Hauge, R., & Smalley, R. (2003). Crystallization and orientation studies in polypropylene/single wall carbon nanotube composite. Polymer, 44, 2373 – 2377.


Liu, T., Henderson, C. L., & Samuels, R. (2003). Quantitative characterization of the optical properties of absorbing polymer films: comparative investigation of the Internal Reflection Intensity Analysis Method. Journal of Polymer Science, Part B: Polymer Physics, 41, 842 – 855.


Liu, T., & Kumar, S. (2003). Quantitative characterization of SWNT orientation by polarized Raman spectroscopy. Chemical Physics Letters, 378, 257-262.


Liu, T., & Kumar, S. (2003). Effect of orientation on the modulus of SWNT films and fibers. Nano Letters, 3, 647 – 650.


Liu, T., Sreekumar, T., Kumar, S., Hauge, R., & Smalley, R. (2003). SWNT/PAN composite film based supercapacitors. Carbon, 41, 2447 – 2449.


Sreekumar, T., Liu, T., Kumar, S., Ericson, L., Hauge, R., & Smalley, R. (2003). Single-wall carbon nanotube films. Chemistry of Materials, 15, 175 – 178.


Zhang, X., Liu, T., Sreekumar, T., Kumar, S., Moore, V., Hauge, R., & Smalley, R. (2003). Poly (vinyl alcohol) /SWNT composite film. Nano Letters, 3, 647 – 650.


Liu, T., & Samuels, R. (2001). The influence of HCl doping level on the complex refractive indices of anisotropic polyaniline film: application of a new internal reflection wave-guide coupling technique. Journal of Polymer Science, Part B: Polymer Physics, 39, 2481-2490.


Refereed Book Chapters


Xiao, Z., Luo, S., & Liu, T. (2011). In-Situ structural characterization of single-walled carbon nanotubes in dispersion. In Siva Yellampalli (Ed.), Carbon Nanotubes - Synthesis, Characterization, Applications (pp. 241 - 263). InTech. Retrieved from http://dx.doi.org/10.5772/16465


Refereed Reviews


Obitayo, W., & Liu, T. (2012). A Review: Carbon Nanotube-Based Piezoresistive Strain. Journal of Sensors, 2012, 652438 - 15pp. Retrieved from http://dx.doi.org/10.1155/2012/652438


Nonrefereed Proceedings


Luo, S., Kanuri, S. L., & Liu, T. (in press). Structure dependent piezoresistivity of single-walled carbon nanotube thin films. In Proceedings of SAMPE Tech 2012, Charleston, SC, October 22 - 25, 2012 (7 pages). Covina, CA, SAMPE.


Luo, S., Liu, T., Ou, R., & Lee, S. (in press). Thermally conductive hybrid nanoparticles - Fe2O3 and CNTs for improving the thermal conductivity of silicone elastomers. In Proceedings of 40th Annual Conference of NATAS, Orlando, FL (7 pages). Ottawa, Ontario, Canada: NRCan Canadian Explosives Research Laboratory.


Xiao, Z., Baltas, G., & Liu, T. (2012). In-situ structural characterization of SWCNTs for probing polymer/nanorod interactions. In Nano Science and Technology Institute(NSTI)-Nanotech 2012, Santa Clara, CA (pp. 83 - 86). Boca Raton, FL, Taylor & Francis.


Luo, S., Xiao, Z., & Liu, T. (2012). Processing-Structure-Property Relationship of SWCNT Thin Films – from Dispersion to Functional Materials. In Proceedings of 13th Annual Science & Engineering Technology Conference/Defense Tech Exposition, April 17 – 19, 2012, Charleston, SC (pp. 9). Arlington, VA: National Defense Industrial Association (NDIA).


Zhao, D., Liu, T., Zhang, M., Chen, J., & Wang, B. (2011). Nanotube-Enhanced Aerosol-Jet Printed Electronics for Embedded Sensing of Composite Structural Health. In 2011 MRS Fall Meeting, Boston, MA. Symposium AA – Carbon Nanotubes, Graphene and Related Nanostructures (pp. 6). Cambridge University Press, MA.


Fu, X., Zhang, C., Liu, T., Liang, R., & Wang, B. (2010). Processing And Fire Retardancy Of Multiscale Carbon Nanotube Buckypaper/carbon Fiber/polymer Composites Via Liquid Composite Molding Process. In Society for the Advancement of Material and Process Engineering (SAMPE) 2010, Salt Lake City, UT (pp. 14). Covina, CA, SAMPE.


Luo, S., Wang, B., & Liu, T. (2010). Combined Microfluidization and Ultrasonication Process for High Throughput and Large-Scale Production of SWCNT Dispersions. In Johanna B. Lantz, Nobuo Takeda, Bradley M. Doudican, Gregory A. Schoeppner, & Steven L. Donaldson (Eds.), American Society for Composites Twenty-Fifth Technical Conference Proceedings: Proceedings of the 14th Us-japan Conference on Composite Materials, Dayton, OH (pp. 609 - 622). Lancaster PA, Destech Pubns Inc.


Xiao, Z., Wang, B., & Liu, T. (2010). Simultaneous Raman scattering and photoluminescence spectroscopy for quantifying the chemically induced defects of single-walled carbon nanotubes. In Johanna B. Lantz, Nobuo Takeda, Bradley M. Doudican, Gregory A. Schoeppner, & Steven L. Donaldson (Eds.), American Society for Composites Twenty-Fifth Technical Conference Proceedings: Proceedings of the 14th Us-japan Conference on Composite Materials, Dayton, OH (pp. 637 - 648). Lancaster PA, Destech Pubns Inc.


Xiao, Z., Luo, S., Zhang, C., Wang, B., & Liu, T. (2009). Quantitative characterization of SWNT dispersions. In John W. Gillespie Jr., & Suong V. Hoa (Eds.), 24th Annual Technical Conference of the American Society for Composites 2009 and 1st Joint Canadian-American Technical Conference on Composites (pp. 676 - 696). Lancaster PA, Destech Pubns Inc.


Fu, X., Liu, T., Zhang, C., Liang, R., & Wang, B. (2008). Processing and Characterization of High-temperature Multiscale Composites. In Society for the Advancement of Material and Process Engineering (SAMPE) 2008, Long Beach, CA (pp. 11). Covina, CA, SAMPE.


Presentations


Invited Presentations at Conferences


Liu, T. (presented 2011, November). In-Situ Structural Characterization of SWCNTs in Dispersion. Presentation at INFORMS Annual Meeting in Nanomanufacturing and Nanoinformatics VI: Modeling and Quality control, Institute for Operations Research and the Management Sciences (INFORMS), Charlotte, North Carolina. (International)


Nonrefereed Presentations at Conferences


Liu, T. (presented 2010, November). Quantitative characterization of SWCNTs in dispersion: size, bundling states and defect density. Presentation at 66th Southwest and 62nd Southeastern Regional Meeting of the American Chemical Society, American Chemical Society (ACS), New Orleans, Louisiana. (Regional)


Liu, T. (presented 2009, March). Processing of SWNT dispersions – microfluidic processing vs. ultrasonication. Presentation at 2009 APS March Meeting, American Physical Society (APS), Pittsburgh, Pennsylvania. (National)


Liu, T. (presented 2009, March). Resonance Raman scattering for quantification of the bundling of SWNTs. Presentation at 2009 APS March Meeting, American Physical Society (APS), Pittsburgh, Pennsylvania. (National)


Invited Lectures and Readings of Original Work


Liu, T. (2012, August). Single-Walled Carbon Nanotube and Gold nanoparticle Enabled Functional Polymeric nanocomposites. Delivered at Dow Corning Corporation, Midland, MI. (Regional)


Inventions


Patented Inventions


Heintz, A., Elhard, J., Risser, S., Liu, T., More, B., & Vijayendran, B. (submitted). Modified carbon nanotubes and methods of forming carbon nanotubes. WO/2008/054473, Battelle Memorial Institute.


Liu, T., Vijayendran, B., Gupta, A., & Paek, S. (submitted). Carbon nanotube nanocomposites, methods of making carbon nanotube nanocomposites, and devices comprising the nanocomposites. WO/2008/027502, Battelle Memorial Institute.


Liu, T., Zhang, C., Wang, B., & Liang, R. (2011). Sensor and a method of making. US 8,020,456.


Liu, T., & Kumar, S. (2008). Supercapacitor having electrode material comprising. US 7,061,749.


Contracts and Grants


Contracts and Grants Funded


Liu, T. (PI), & Wang, B. (Jul 2011–Jun 2014). Ultrathin SWCNT Films Enabled Multi-modal Fiber Sensors. Funded by AFOSR. Total award $309,420.


Zheng, J. (PI), Andrei, P., & Liu, T. (Aug 2010–Mar 2012). Research and Development on Some Critical Issues for Hig. Funded by General Technical Services. Total award $300,647.


Liu, T. (PI). (Jul 2010–Dec 2011). Nano-Tailored Advanced Carbon Fibers. Funded by Georgia Institute of Technolog. Total award $210,815.


Okoli, O. O. (PI), Zhang, C., Wang, H.-P., Pignatiello, J. J., Liang, Z., Zeng, C., Liu, T., Zhang, M., & Vanli, O. A. (Jul 2010–Jun 2013). REU Site: Non Participant Support -- Retaining Engineers. Funded by National Science Foundation. Total award $327,969.


Liu, T. (PI). (May 2010–May 2012). Characterize Thermal Properties of the Nanocomposite Adh. Funded by NEI Corporation. Total award $65,000.


Liu, T. (PI), & Zhang, C. (Feb 2009–Apr 2010). Metallic Nanoparticle Decorated Graphene/Carbon Nanotube. Funded by Universal Technology Corporation. Total award $65,201.


Postdoctoral Supervision


Postdoctoral Supervision


Gupta, M. (Aug 2010–Sep 2011).


Chatterjee, J. (Dec 2008–May 2011).


Reviews of My Research and Original Creative Work by Other Authors


Reviews Appearing in Journals


Wernik, J., & Meguid, S. (2010). Recent Developments in Multifunctional Nanocomposites Using Carbon Nanotubes. APPLIED MECHANICS REVIEWS, 63, 050801.


Wang, H. (2009). Dispersing carbon nanotubes using surfactants. CURRENT OPINION IN COLLOID & INTERFACE SCIENCE, 14, 364-371.


Service


Florida State University


FSU College Service


Member, Search Committee for the Dean of College of Engineering (2011).


FSU Department Service


Chair, Faculty Search Committee (2011–present).


Member, Faculty Search Committee (2008–present).


Member, Strategic Planning Committee for planning the IME department strategic research (2008–present).


The Profession


Reviewer or Panelist for Grant Applications


AFSOR (2012).


NSF (2011).


PRF (ACS Petroluem Research Fund) (2009).


NSF (2006).

Добавить в свой блог или на сайт

Похожие:

University address: Industrial and Manufacturing Engineering iconUniversity address: Industrial and Manufacturing Engineering

University address: Industrial and Manufacturing Engineering iconAuburn University, Auburn Alabama Major: Industrial Engineering in Manufacturing gpa: 0 0 Thesis: Learning optimization for cpn-based control of robot position. Bachelor of Science (B. S.), 1982

University address: Industrial and Manufacturing Engineering iconUniversity address: Chemical & Biomedical Engineering

University address: Industrial and Manufacturing Engineering iconUniversity address: Civil and Environmental Engineering

University address: Industrial and Manufacturing Engineering iconEducation northwestern University, Evanston, IL; Ph. D in Materials Science and Engineering (1989) Banaras Hindu University, India; B. Tech in Metallurgical Engineering (1985) experience

University address: Industrial and Manufacturing Engineering iconM. E. Electrical Engineering, Utah State University, 1973 B. E. Electrical Engineering, University of Madras, India, 1971

University address: Industrial and Manufacturing Engineering iconAerospace, Mechanical & Manufacturing Engineering 3

University address: Industrial and Manufacturing Engineering iconPart time b. E. Manufacturing engineering

University address: Industrial and Manufacturing Engineering icon30th Street Industrial Corridor Corporation A. K. Kraussel Tool & Manufacturing Corporation

University address: Industrial and Manufacturing Engineering iconMSc Design Engineering and Manufacturing Management


Разместите кнопку на своём сайте:
lib.convdocs.org


База данных защищена авторским правом ©lib.convdocs.org 2012
обратиться к администрации
lib.convdocs.org
Главная страница