(3.80.6.131) 您好!臺灣時間:2021/05/14 02:51
字體大小: 字級放大   字級縮小   預設字形  
回查詢結果

詳目顯示:::

: 
twitterline
研究生:鄭偉順
研究生(外文):Wei-Shun Zheng
論文名稱:奈米碳網於觸控面板感測器之應用研究
論文名稱(外文):The Study of Application of Carbon Nanonets on Touch Panel Sensors
指導教授:黃世疇
指導教授(外文):Shyh-Chour Huang
學位類別:碩士
校院名稱:國立高雄應用科技大學
系所名稱:機械與精密工程研究所
學門:工程學門
學類:機械工程學類
論文種類:學術論文
畢業學年度:100
語文別:中文
論文頁數:65
中文關鍵詞:奈米碳網觸控面板電阻式透明性可撓性聚對二甲基苯聚雙甲基矽氧烷
外文關鍵詞:Carbon NanonetsTouch PanelResistiveTransparencyFlexibleParylene-CPDMS
相關次數:
  • 被引用被引用:0
  • 點閱點閱:747
  • 評分評分:系統版面圖檔系統版面圖檔系統版面圖檔系統版面圖檔系統版面圖檔
  • 下載下載:78
  • 收藏至我的研究室書目清單書目收藏:1
本研究之目的為使用奈米碳網製作感測器並應用於觸控面板,該感測器為電阻式觸控面板,元件之製作以MEMS進行。奈米碳網為使用ACCVD成長之單壁奈米碳網,並將成長後之奈米碳網進行一般常見四線電阻式觸控面板與陣列圖形化觸控面板設計,並使用Parylene-C與PDMS做為封裝與基層,完成奈米碳網之薄型透明可撓性觸控面板感測器。
最後進行完成之觸控面板測試,量測觸壓元件後之電壓變化,來達到定位觸碰位置與該觸控面板之線性度之探討,並另外討論圖形化觸控面板之可形性與比較,以及奈米碳網成長情形對其之影響。研究圖形化粗細與感測靈敏度之關係,以及觸控面板元件之直線性。
In this study, a carbon nanonets is applied to touch sensor panel, the sensor for the resistive touch panel, the components is producted by the MEMS fabrication process. Carbon nanonets is growing into Single-walled Carbon Nanonets by alcohol catalytic chemical vapor deposition(ACCVD), the carbon nanonets is designed to a general four-wire resistive touch panel and the array graphical touch panel, and using the Parylene-C and PDMS as a package and base, to complete carbon nanonets sensor is thine, transparent and flexible.
Finally, the completion touch panel for test, the components is measuremented voltage in touching, to achieve the touch position orientation and the touch panel linearity of the study, and studying graphical touch panel possibility, and the situation of the growth carbon nanonets. Study the relation between the thickening and sensitivity on the graphical sensor, also the linearity of touch panel components.
摘要 i
Abstract ii
誌謝 iii
目 錄 iv
表目錄 vi
圖目錄 vii
第一章 緒論 1
1.1 文獻回顧 2
1.1.1 觸控面板系統 2
1.1.2 觸控面板應用 2
1.1.3 觸控面板技術 3
1.1.4奈米碳管 9
1.2 研究動機與目標 19
1.3 研究方法 22
1.4 論文架構 23
第二章 奈米碳管之電阻式觸控面板設計 24
2.1 電阻式觸控面板結構與量測 24
2.1.1 四線型電阻式觸控面板 24
2.1.2 電阻式觸控面板之直線性 26
2.2 元件的設計和製程規劃 28
第三章 奈米碳網之電阻式觸控面板製程 32
3.1 奈米碳網的生長 32
3.1.1 電弧放電法(Arc Discharge) 32
3.1.2 雷射剝鍍法(Laser Ablation) 33
3.1.3 催化式化學氣相沉積法(Catalytic Chemical Vapor Deposition,CCVD) 34
3.2 奈米碳網之PDMS轉印測試 35
3.2.1 聚雙甲基矽氧烷PDMS 35
3.2.2 Parylene-C與PDMS測試結果 37
3.3 奈米碳管之觸控面板製程結果 38
3.3.1 晶圓破片的準備 38
3.3.2 奈米碳網的成長 39
3.3.3 奈米碳網圖形的製作 44
3.3.4 沉積Parylene-C製程 46
3.3.5 對位記號製作 46
3.3.6 轉印( Transfer )製程 47
3.3.7 金屬電極製作 49
第四章 電阻式觸控面板之量測 51
4.1 電壓量測規劃與準備 51
4.1.1 電壓量測規劃 51
4.1.2 觸控面板電壓量測試驗片準備 52
4.2 電壓量測及結果 52
4.2.1 四線型電阻式觸控面板之量測 52
4.2.2 陣列型電阻式觸控面板之量測 56
4.2.3 陣列型與四線型電組式觸控面板比較 58
第五章 結論 59
5.1 研究成果 59
5.2 未來展望 59
參考文獻 61
[1]http://vip88.myweb.hinet.net/ttis,台灣觸控資訊網。
[2]H. D. Arlowe and D. E. Coleman, 1990, "The Mobile Intrusion Detection and Assessment System," Proceedings of IEEE 1990 International Carnahan Conference on Security Technology, pp. 54-61.
[3]T. Sekimoto, T. Tsubouchi and S. Yuta, 1996, "An Implementation of a Human Interface using a Touch Panel and Visual Images for Controlling a Vehicle," Proceedings of 5th IEEE International Workshop on Robot and Human Communication, pp. 451-455.
[4]B. Kotnik, T. Rotovnik, Z. Kacic, B. Horvat and I. Kramberger, 2001, "The Design of Mobile Multimodal Communication Device-PersonalNavigator," Proceedings of International Conference on EUROCON'2001, Vol. 2, pp. 337~340.
[5]C. C. Lai and C. C. Tsai, 2004, "Neural Calibration and Kalman filter Position Estimation for Touch Panels," Proceedings of The 2004 IEEE International Conference on Control Applications, Vol. 2, pp. 1491-1496.
[6]T. Shibata, 2004, "Ubiquitous Surface Tactile Sensor," Proceedings of First IEEE Technical Exhibition Based Conference on Robotics and Automation, pp. 5-6.
[7]M. Takeuchi, T. Gotsu, N. Fujita, P. Gomes, J. Kent and R. Adler, 2004, " Ultrasonic Attenuation in Acoustic Touch Panels, " IEEE Transactions on Industry Applications, pp.1585-1590.
[8]http://www.2cm.com.tw/technologyshow_content.asp?sn=0803200008,新通訊。
[9]P. T. Krein and R. D Meadows, 1990, "The Electroquasistatics of the Capacitive Touch Panel, " IEEE Transactions on Industry Applications, Vol. 26, Issue 3, pp. 529-534.
[10]林玉婷,2008,手持式裝置之情境規劃,國立中央大學企業管理系,碩士論文 。
[11]劉湘明,2003,ITO觸控面板之電阻控制模式比較,南台科技大學電機工程研究所,碩士論文。
[12]蔡宗典,2007,超薄ITO透明導電膜應用在觸控面板之研究,國立中央大學光電科學研究所,碩士論文。
[13]J. Y. Wang, C. F. Hu, C. Hong, W. S. Su, and W. Fang1, 2011, "Development of 3D CNTS Interdigitated Finger Electrodes On Flexible Polymer For Bending Strain Measurement," Micro Electro Mechanical Systems (MEMS), 2011 IEEE 24th International Conference on, pp. 408-411.
[14]韋進全,張先鋒,王昆林,2009,奈米碳管巨觀體:物理化學特性與應用,初版,五南書局,台北市。
[15]H. W. Kroto, J. R. Heath, S. C. O’Brien, R. F. Curl, and R. E. Smalley, 1985, "C60: Buckminsterfullerene," Nature, Vol. 318 14, pp. 162-163.
[16]P. G. Collins, and P. Avouris, "Nanotubes for Electronics, 2000," Science American, Vol. 283, pp. 38-45.
[17]C. Hierold, A. Jungen, C. Stampfer, and T. Helbling, 2007, "Nano Electromechanical Sensors Based on Carbon Nanotubes," Sensors and Actuators A, Vol. 136, pp. 51-61.
[18]P. R. Supronowicz, P. M. Ajayan, K. R. Ullmann, B. P. Arulanandam, D. W. Metzger, and R. Bizios, 2002, "Novel Current-Conducting Composite Substrates for Exposing Osteoblasts to Alternating Current Stimulation," Journal of Biomedical Materials Research, Vol. 59, pp.499-506.
[19]Y. Lin, Y. Tu, F. Lu, and Z. Ren, 2004, "Development of Biosensors Based on Carbon Nanotube Nanoelectrode Arrays," Proc. of SPIE, Vol. 5593, pp. 44-51.
[20]C. Staii, and A. T. Johnson, 2005, "DNA-Decorated Carbon Nanotubes for Chemical Sensing," Nano Letter, Vol. 5, No. 9, pp. 1774-1778.
[21]E. S. Snow, and F. K. Perkins, 2005, "Capacitance and Conductance of Single-Walled Carbon Nanotubes in the Presence of Chemical Vapors," Nano Letter, Vol. 5, No. 12, pp. 2414-2417.
[22]S. Sirivisoot, and T. J Webster, 2008, "Multiwalled Carbon Nanotubes Enhance Electrochemical Properties of Titanium to Determine in Situ Bone Formation," Nanotechnology, Vol. 19, pp. 1-12.
[23]C. M. Lin, Y. T. Lee, S. R. Yeh, and W. Fang, 2009, "Flexible Carbon Nanotubes Electrode for Neural Recording," Biosensors and Bioelectronics, Vol. 24, pp. 2791–2797.
[24]G. Y. Yang, G. Johnson, W. C. Tang, and J. H. Keyak, 2007, "Parylene-Based Strain Sensors for Bone," IEEE Sensors Journal, Vol. 7, No. 12, pp. 1693-1697.
[25]Y. Liu, S. Chakrabartty, D. S. Gkinosatis, A. K. Mohanty, and N. Lajnef, 2007, "Multi-walled Carbon Nanotubes/Poly(L-lactide) Nanocomposite Strain Sensor for Biomechanical Implants," Biomedical Circuits and Systems Conference, 2007. BIOCAS 2007. IEEE, pp. 119-122.
[26]C. C. Hsu, C. W. Liu, R. M. Chao, and B.T. Dai, 2009, "Flexible SWCNTs Nanonets/Parylene-C Thin Film for Strain Sensing," Symposium on Nano Device Technology.
[27]Y. T. Huang, C. C. Hsu, S. C. Huang, and R. M. Chao, 2010, "Polyimide-Based Single-walled Carbon Nanonets (SWCNNs) Flexible Strain Sensor for Bone," International Conference on Bioinformatics and Biomedical Technology.
[28]柏德葳,2010,2010年觸控面板術技與市場未來趨勢,拓撲產業研究所焦點報告。
[29]Y. W. Bai and C. Y. Chen, 2007, "Using Serial Resistors to Reduce the Power Consumption of Resistive Touch Panels," Consumer Electronics, 2007. ISCE 2007. IEEE International Symposium on, pp.1-6, June.
[30]鄒宏基, 陳智豪, 程龍著,2009,基礎電路學,儒林圖書出版,台北市。
[31]曲毅民編著,2009,電路學,全華書局,台北市。
[32]http://www.cyte-conap.com/sdp/867858/3/pd-4468556/5091808-1763691.html,崑山小溪電子有限公司。
QRCODE
 
 
 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                               
第一頁 上一頁 下一頁 最後一頁 top
無相關期刊
 
系統版面圖檔 系統版面圖檔