參考文獻 |
參考文獻
[1] W. Zhao, X. Jin, Y. Cong, Y. Liu, and J. Fu.”Degradable natural polymer hydrogels for articular cartilagetissue engineering,“ Journal of Chemical Technology and Biotechnology, Volume 88, issue 3, pp.327-339, 2013
[2] S. Gulrez, S. Al-Assaf, and G.Phillips, ”Hydrogels: methods of preparation, characterisation and applications,“ in Progress in molecular and environmental bioengineering-from analysis and modeling to technology applications, Rijeka, C. Angelo (Ed.), pp.117-118, 2011
[3] E. M.Ahmed, ”Hydrogel: Preparation, characterization, and applications: A review” Journal of Advanced Research, Volume 6, Issue 2, pp.107, 2015
[4] S. Simões, A. Figueiras, and F. Veiga, “Modular Hydrogels for Drug Delivery,” Journal of Biomaterials and Nanobiotechnology, Volume 3, No. 2, pp.185-199, 2012
[5] T. R. Hoare and D. S. Kohane, “Hydrogels in drug delivery: Progress and challenges,”, Polymer, Volume 49, Issue 8, pp.1993-2007,2008
[6] L. Dong, A. K. Agarwal, D. J. Beebe, and H. Jiang, “Adaptive liquid microlenses activated bystimuli-responsive hydrogels.” Nature, Volume. 442, pp.551-554, 2006.
[7] D. Zhu, C. Li, X. Zeng, and H. Jiang, “Hydrogel-actuated tunable-focus microlens arrays mimicking compound eyes,” TRANSDUCERS 2009 - 2009 International Solid-State Sensors, Actuators and Microsystems Conference, Denver, CO, pp.2302-2305 , 2009
[8] Z. Ding, P. Wei and B. Ziaie, “Self-Folding Smart 3D Microstructures Using a Hydrogel-Parylene Bilayer,” 2010 18th Biennial University /Government/Industry Micro/Nano Symposium, West Lafayette, IN, pp.1-4, 2010
[9] J. C. Kuo, S. W. Tung, and Y. J. Yang, “A hydrogel-based intravascular microgripper manipulated using magnetic fields,” 2013 Transducers & Eurosensors XXVII: The 17th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS & EUROSENSORS XXVII), Barcelona, pp.1683-1686, 2013
[10] Y. Yamamoto, K. Kanao, T. Arie, S. Akita, and K. Takei, “Electrical powerless, thermal and optical responsive polymer-based actuator,” 2015 Transducers - 2015 18th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), Anchorage, AK, pp. 2129-2131, 2015
[11] M. Selvaraj and K. Takahata, “A steerable smart catheter tip realized by flexible hydrogel actuator,” 2016 IEEE 29th International Conference on Micro Electro Mechanical Systems (MEMS), Shanghai, pp.161-164, 2016
[12] Dr. Ramesh Ramadoss, Formfactor, San Jose, CA, “MEMS devices for biomedical applications” Available online: http://electroiq.com/blog/2013/10/mems-devices-for-biomedical-applications/
[13] L. Ionov, “Hydrogel-based actuators: possibilities and limitations.” Materials Today, Volume 17, Issue 10, pp.494-503, 2014
[14] Q. Wang, J. Huang, and Y. Lai (2016).” Smart Drug Delivery Strategies Based on Porous Nanostructure Materials, ” in Smart Drug Delivery System, Edited by Ali Demir Sezer, Intech-open Access Pubisher, Chapter 3,2016
[15] M. Ebara, Y. Kotsuchibashi, K. Uto, T. Aoyagi, Y.-J. Kim, R. Narain, N. Idota, and J. Hoffman,” Smart Hydrogels. Smart Biomaterials,” Japan, Springer, 2014
[16] F. Zhao, D. Wu, D.Yao, R. Guo, W. Wang, A. Dong, D. Kong, and J. Zhang, “An injectable particle-hydrogel hybrid system for glucose-regulatory insulin delivery,” Acta Biomaterialia, Volume 64, pp.334-345, 2017
[17] W. A. Laftah, S. Hashim, and A. N. Ibrahim “Polymer Hydrogels: A Review”, Polymer-Plastics Technology and Engineering, Volume 50, Issue 14, pp.1475-1486, 2011
[18] Mebiol® Gel, MBG-PMW20-5001 “COSMO Bio Company, Limited[JP]”, Available online:
https://www.cosmobio.com/products/mbg_pmw205001_1x50.html
[19] Yahia LH, Chirani N, and Gritsch L,” History and Applications of Hydrogels,” Journal of Biomedical Science, Volume4, Issue 2, 2015
[20] Raymond Chang, Physical Chemistry for the Biosciences, Sausalito, Edwards Brothers Inc, pp.508-510, 2005
[21] Y.H Tsou, J. Khoneisser, P.C. Huang, and X. Xu, “Hydrogel as a bioactive material to regulate stem cell fate,” ,Bioactive Materials, Volume 1, Issue 1,2016,p.p 39-55
[22] “Condensation Reactions”, Available online: http://www.softschools.com/chemistry/organic_chemistry/condensation_
reactions/
[23] A. Castellanos, J. Leffew, and W. Moreno, “FIB and E-beam cross-linked poly(N-isopropylacrylamide) patterning for BioMEMS/NEMS,” 2008 7th International Caribbean Conference on Devices, Circuits and Systems, Cancun, pp.1-6, 2008
[24] X Zhang, D Wu, C Chu, “Effect of the crosslinking level on the properties of temperature‐sensitive poly(N‐isopropylacrylamide) hydrogels,” Journal of Polymer Science Part B: Polymer Physics, vol. 41, issue 6, pp. 582-593, 2003
[25] S. Lanzalaco, E. Armelin, “Poly(N-isopropylacrylamide) and Copolymers: A Review on Recent Progresses in Biomedical Applications,” Gels, Volume 3, No. 4, pp.36, 2017
[26] S. Campbell, D. Maitland, and T. Hoare, “Enhanced Pulsatile Drug Release from Injectable Magnetic Hydrogels with Embedded Thermosensitive Microgels,” ACS Macro Letters, Volume 4,Issue 3, pp. 312-316, 2015
[27] J. Tang, X. Cui, T. G. Caranasos, M. T. Hensley, A. C. Vandergriff, Y. Hartanto, D. Shen, H. Zhang, J. Zhang, and K. Cheng, “Heart Repair Using Nanogel-Encapsulated Human Cardiac Stem Cells in Mice and Pigs with Myocardial Infarction.” ACS Nano, Volume 11, Issue 10, pp.9738-9749, 2017
[28] 吳政昱,用聚異丙基丙烯醯胺水膠製作熱致色變節能窗材,大同大學機械工程學系,2008
[29] Hu, Xiaobo, Zhen Tong, and L. Andrew Lyon, “Control of Poly(N-isopropylacrylamide) Microgel Network Structure by Precipitation Polymerization near the Lower Critical Solution Temperature,” Langmuir : the ACS journal of surfaces and colloids 27.7 : pp.4142–4148, 2011
[30] 集研科技應變規型錄Foil Strain Gauges Series F |