Publications

41. Rihani R T, Kim H, Black B J, Atmaramani R, Saed M O, Pancrazio J J, Ware T H*  Liquid Crystal Elastomer-Based Microelectrode Array for In Vitro Neuronal Recordings. Micromachines 9 (2018). Open Access Link

40. Ambulo, C P, Burroughs J J, Boothby J M, Kim H, Shankar M R, Ware T H*. “4D Printing of Liquid Crystal Elastomers.” ACS Applied Materials and Interfaces. (2017) DOI: 10.1021/acsami.7b11851. Link

39. Kim H, Boothby J M, Ramachandran S, Lee C D, Ware T H*. Tough, shape-changing materials: crystallized liquid crystal elastomers. Macromolecules, 50 (2017). Link

38. Boothby J M, Ware T H*. Dual-responsive, shape-switching bilayers enabled by liquid crystal elastomers. Soft Matter, 13 (2017). Link

37. Kularatne R S, Kim H, Boothby J M, Ware T H*. Liquid crystal elastomer actuators: Synthesis, alignment, and applications. Journal of Polymer Science Part B: Polymer Physics. 55 (2017). Link

36. Kularatne R S, Kim H, Ammanamanchi M, Hayenga H N, Ware T H*. Shape-Morphing Chromonic Liquid Crystal Hydrogels. Chemistry of Materials. 28 (2016) Link

35. Boothby J M, Kim H, Ware T H*. Shape changes in chemoresponsive liquid crystal elastomers. Sensors and Actuators B: Chemical. 240 (2017). Link

34. Lee K M, Ware T H, Tondiglia V P, Mcbride M K, Zhang X, Bowman C N, White, T J. Initiatorless Photopolymerization of Liquid Crystal Monomers. ACS Applied Materials & Interfaces. 8 (2016). Link

33. Ecker M, Danda V, Shoffstall A J, Mahmood S F, Joshi‐Imre A, Frewin C L, Ware T H, Capadona J R, Pancrazio J J, and Voit W E. Sterilization of Thiol‐ene/Acrylate Based Shape Memory Polymers for Biomedical Applications. Macromolecular Materials and Engineering. 302 (2016). Link

32. Ahn S, Ware T H, Lee K, Tondiglia V, White T. Photoinduced Topographical Feature Development in Blueprinted Azobenzene-Functionalized Liquid Crystalline Elastomers. Advanced Functional Materials (2016). Link Frontispiece

31. Mostajeran C, Warner M, Ware T H, White T. Encoding Gaussian curvature in glassy and elastomeric liquid crystal solids. Proceedings of the Royal Society of London A: Mathematical, Physical and Engineering Sciences 472,  (2016). Link

30. Ware T H, Biggins J S, Shick A F, Warner M, White T J. Localized soft elasticity in liquid crystal elastomers. Nature Communications 7,  (2016). link

29.  Gibson J S, Liu X, Georgakopoulos S V, Wie J J, Ware T H, White T J. Reconfigurable Antennas Based on Self-Morphing Liquid Crystalline Elastomers. IEEE Access 4, (2016). Open access link

28. Reit R., Zamorano D., Parker S., Simon D, Lund B., Voit W., Ware T H*. Hydrolytically Stable Thiol-ene Networks for Flexible Bioelectronics. ACS Applied Materials & Interfaces. 2015 Just Accepted Manuscript DOI: 10.1021/acsami.5b10593 link

27. Yokota, T., Inoue Y, Terakawa Y., Reeder J., Kaltenbrunner M., Ware T., Yang K., Mabuchi K., Murakawa T., Sekino M., Voit W., Sekitani T., Someya T. “Ultraflexible, large-area, physiological temperature sensors for multipoint measurements.” Proceedings of the National Academy of Sciences. 2015; 112 (42), 14533-14538. link

Publications prior to joining the UT Dallas Faculty

26. Ware T H, Perry Z P, Middleton C M, Iacono S T, White T J. Programmable Liquid Crystal Elastomers Prepared by Thiol–Ene Photopolymerization. ACS Macro Letters. 2015; 4, 942-946.

25. Ware T H, White T J. Programmed Liquid Crystal Elastomers with Tunable Actuation Strain. Polymer Chemistry. 2015; 6, 4835 – 4844.

24. Ware T H, McConney M E, Wie J, Tondiglia V P, White T J. Voxelated Liquid Crystal Elastomers. Science. 2015; 347(6225) 982-984. Full Text

23. Ware T , Jennings A, Bassampour Z S, Simon D, Son D Y, Voit W. Degradable, Silyl Ether Thiol-Ene Networks. RSC Advances. 2014; 4(75), 39991 – 40002.

22. Ware T , Simon D, Liu C, Musa T, Vasudevan S, Sloan AM, et al. Thiol-ene/Acrylate substrates for softening intracortical electrodes. Journal of Biomedical Materials Research Part B: Applied Biomaterials. 2014; 102B, 1-11.

21. Ware T, Simon D, Hearon K, Kang TH, Maitland DJ, Voit, W. Thiol-click chemistries for responsive neural interfaces. Macromolecular Bioscience. 2013; 13 (12), 1640-1647.

20. Ware T, Simon D, Rennaker II R L, Voit W. Smart Polymers for Neural Interfaces. Polymer Reviews. 2013; 53(1), 108-29.

19. Ware T, Simon D, Hearon K, Liu C, Shah S, Reeder J, et al. Three-Dimensional Flexible Electronics Enabled by Shape Memory Polymer Substrates for Responsive Neural Interfaces. Macromol Mater Eng. 2012; 297(12), 1193-1202.

18. Ware T, Simon D, Arreaga-Salas DE, Reeder J, Rennaker R, Keefer EW, et al. Fabrication of Responsive, Softening Neural Interfaces. Advanced Functional Materials. 2012; 22(16):3470-9.

17. Ware T, Hearon K, Lonnecker A, Wooley KL, Maitland DJ, Voit W. Triple-Shape Memory Polymers Based on Self-Complementary Hydrogen Bonding. Macromolecules. 2012; 45(2), 1062-9.

16. Ware T, Ellson G, Kwasnik A, Drewicz S, Gall K, Voit W. Tough shape-memory polymer—fiber composites. Journal of Reinforced Plastics and Composites. 2011; 30(5), 371-80.

15. Ware T, Voit W, Gall K. Effects of sensitizer length on radiation crosslinked shape-memory polymers. Radiation Physics and Chemistry. 2010; 79(4), 446-53.

14. Fuchi K, Ware T, Buskohl P R, Reich G W, Vaia R A, White T J, Joo J J. Topology optimization for the design of folding liquid crystal elastomer actuators. Soft Matter. 2015, early view online.

13. Wie J J, Lee K M, Ware T, White T J. Twists and Turns in Glassy, Liquid Crystalline Polymer Networks. Macromolecules. 2015; 4(48), 1087-1092.

12. Ellson G, Di Prima M, Ware T, Tang X, Voit W. Tunable thiol–epoxy shape memory polymer foams. Smart Materials and Structures. 2015; 24(5), 055001.

11. Reeder J, Kaltenbrunner M, Ware T et al. Mechanically Adaptive Organic Transistors for Implantable Electronics. Advanced Materials. 2014; 29 (26). 4967-4973.

10. Haque MH, Upadhaya P, Roy S, Ware T, Voit W, Lu H. The changes in flexural properties and microstructures of carbon fiber bismaleimide composite after exposure to a high temperature. Composite Structures. 2014; 108, 57-64.

9. Hearon K, Besset CJ, Lonnecker AT, Ware T, Voit WE, Wilson TS, Wooley KL, Maitland DJ. A Structural Approach to Establishing a Platform Chemistry for the Tunable, Bulk Electron Beam Cross-Linking of Shape Memory Polymer Systems. Macromolecules. 2013; 46 (22), 8905-8916.

8. Simon D, Ware T, Marcotte R, Lund B, Smith D, Jr., Prima M, et al. A comparison of polymer substrates for photolithographic processing of flexible bioelectronics. Biomedical Microdevices. 2013; 15(6), 925-939.

7. Avendano A, Ware T, Arreaga D, Simon D, Voit W. Mechanical Cycling Stability of Organic Thin Film Transistors on Shape Memory Polymers. Advanced Materials. 2013; 25, 3095-99.

6. Dei DK, Lund BR, Wu J, Simon D, Ware T, Voit WE, et al. High Performance and Multipurpose Triarylamine-Enchained Semifluorinated Polymers. ACS Macro Letters. 2012; 2(1), 35-9.

5. Lima MD, Li N, de Andrade MJ, Fang S, Oh J, Spinks GM,… Ware T, et al. Electrically, Chemically, and Photonically Powered Torsional and Tensile Actuation of Hybrid Carbon Nanotube Yarn Muscles. Science. 2012; 338(6109), 928-32.

4. Hearon K, Nash LD, Volk BL, Ware T, Lewicki JP, Voit WE, et al. Electron Beam Crosslinked Polyurethane Shape Memory Polymers with Tunable Mechanical Properties. Macromolecular Chemistry and Physics. 2012; 214, 1258-72.

3. Hearon K, Gall K, Ware T, Maitland DJ, Bearinger JP, Wilson TS. Post-polymerization crosslinked polyurethane shape memory polymers. Journal of Applied Polymer Science. 2011; 121(1), 144-53.

2. Voit W, Ware T, Gall K. Radiation crosslinked shape-memory polymers. Polymer. 2010; 51(15), 3551-9.

1. Voit W, Ware T, Dasari RR, Smith P, Danz L, Simon D, et al. High-Strain Shape-Memory Polymers. Advanced Functional Materials. 2010; 20(1), 162-71.