1. 毕业设计（论文）的内容和要求

传感器是现代智能生活的基础，手机、可穿戴装备、电动车、智能家居等几乎一切智能设备都离不开传感器。

而其中，压力传感器更是起着关键性的作用，一切和接触、力度相关的场合，都需要用到压力传感器。

柔性压力传感器因其弹性、柔软灵活的特点，具有更广泛的应用前景。

2. 参考文献

[1] Stefan C. B.Mannsfeld1, Benjamin C- K. Tee, Zhenan Bao, et al. Highly sensitive fexible pressure sensors with microstructured rubber dielectric layers [J]. Nature Mater , 2010, 9(10): 859- 864. [2]Lijia Pan, Yaqun Wang, Zhenan Bao, et al. An ultra- sensitive resistive pressure sensor based on hollow- sphere microstructure induced elasticity in conducting polymer film[J]. Nature Communication. 2014, 5: 3002- 3010. [3]Changhyun Pang, Sung- Hoon Ahn, Kahp- Yang Suh. A flexible and highly sensitive strain- gauge sensor using reversible inter - locking of nanofibres[J]. Nature Materials, 2012, 11(9): 795- 801. [4]Chuan wang, David Hwang, Ali Javey. User- interactive electronic skin for instantaneous pressure visualization[J]. Nature Materials, 2013, 12(10): 809- 904. [5]Zhiyong Fan, Johnny C.Ho, Ali Javey, et al. Toward the Development of Printable Nanowire Electronics and Sensors [J], Adv.Mater, 2009, 21(37): 3730- 3743. [6]Stefan C. B. Mannsfeld, Benjamin C-K. Tee, Randall M. Stoltenberg, et al. Highly sensitive flexible pressure sensors with microstructured rubber dielectric layers[J], Nature Materials, 2010, 9(12): 859-864. [7] Yaping Zang, Fengjiao Zhang, Chong-an Di, et al. Advances of flexible pressure sensors toward artificial intelligence and health care applications[J], Materials Horizons, 2016, 9(8): 140-156. [8] Shu Gong, Willem Schwalb, Wenlong Chen, et al. A wearable and highly sensitive pressure sensor with ultrathin gold nanowires[J], Nature Communications, 2014, 2(6): 1-8. [9]Hong- Bin Yao, Jin Ge, Shu- Hong Yu, et al. A Flexible and Highly Pressure- Sensitive Graphene Polyurethane Sponge Based on Fractured Microstructure Design[J], Adv. Mater, 2013, 25(46): 6692- 6698. [10]Xuewen Wang, Yang Gu, Ting Zhang, et al. Silk-Molded Flexible, Ultrasensitive, and Highly Stable Electronic Skin for Monitoring Human Physiological Signals[J], Adv.Mater, 2014,26(9): 1336- 1342. [11]Ghosh S, Inganas O (1999) Conducting polymer hydrogels as 3D electrodes: #8232;Applications for supercapacitors. Adv Mater 11:1214#8211;1218. #8232; [12]Mano N, Yoo JE, Tarver J, Loo Y-L, Heller A (2007) An electron-conducting cross-linked polyaniline-based redox hydrogel, formed in one step at pH 7.2, wires glucose oxidase. #8232;J Am Chem Soc 129:7006#8211;7007. #8232; [13]Dai T, Jia Y (2011) Supramolecular hydrogels of polyaniline-poly(styrene sulfonate) #8232;prepared in concentrated solutions. Polymer 52:2550#8211;2558. #8232; [14]Samotus B, Schwimmer S (1962) Phytic acid as a phosphorus reservoir in developing #8232;potato tuber. Nature 194:578#8211;578. #8232; [15]Hatch AJ, York JD (2010) Snap shot: Inositol phosphates. Cell 143:1030#8211;1031. #8232;

3. 毕业设计（论文）进程安排

2016.12#8212;2017.2 熟知柔性压力传感器以及皮革的背景知识（查阅书籍、相关课题组研究进程以及文献）； 2017.3#8212;2017.4 制备基于皮革的柔性压力传感器，并且掌握相关的仪器操作和分析测试方法； 2017.5#8212;2017.6 优化制备的柔性压力传感器，总结数据，撰写论文。