49,854 research outputs found
Supplemental material for publication JAAD-D-19-02389 (Chun-Yu Lai et al. Association between bullous pemphigoid and ischemic heart diseases: A systematic review and meta-analysis. J Am Acad Dermatol. 2020)
No full textSupplemental material for publication JAAD-D-19-02389 (Chun-Yu Lai et al. Association between bullous pemphigoid and ischemic heart diseases: A systematic review and meta-analysis. J Am Acad Dermatol. 2020
The political role of the people's liberation army 1949-1973
Full text linkThis thesis is to study the political role of the People's Liberation Army from the approach of structure and function. The framework of the thesis consists of three major parts, first, the influence of Chinese traditional political culture on, and the formation of, the political role of the PL A; second, the influence of domestic political struggles and external military conflicts on the development of the political role of the PLA; and the third, the analysis of the transition of the PLA's political role from the structure and personnel arrangements of the CCPCC Within the above-mentioned three scopes, this thesis make a thorough discussion on the following: (1) The relationship between the structure of the PRC and the formation of the PLA's political role; (2) How has ideology influenced the army's political role; (3) What is Mao's viewpoint and his influence on the development of the army's political role; (4) What is the link between the army and the party, and how has this developed; (6) What accounts for the expansion of the PLA's political functions; (7) What is the influence of political factional struggles on the PLA's political role; (8) Is it political institution or military institution that controls the recruitment of the military elite; (9) What are the disparities between the military elite in handling international conflicts and what are their political considerations; (10) What is the Party's position in the army; (11) How have the Party’s important meetings and personnel arrangements influenced the rise and fall of the PLA's political role
A Novel CNT-PDMS-Based Tactile Sensing Array With Resistivity Retaining and Recovering by Using Dielectrophoresis Effect
No full textEffect of chemical amendments on the concentration of cadmium and lead in long-term contaminated soils
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AUT823910_Lay_Abstract – Supplemental material for Examining the impact of physical activity on sleep quality and executive functions in children with autism spectrum disorder: A randomized controlled trial
No full textSupplemental material, AUT823910_Lay_Abstract for Examining the impact of physical activity on sleep quality and executive functions in children with autism spectrum disorder: A randomized controlled trial by Choi Yeung Andy Tse, Hong Paul Lee, Ka Shing Kevin Chan, Boades Veronica Edgar, Alison Wilkinson-Smith and Wing Him Elvis Lai in Autism</p
A Polymer-Based Capacitive Sensing Array for Normal and Shear Force Measurement
No full textIn this work, we present the development of a polymer-based capacitive sensing array. The proposed device is capable of measuring normal and shear forces, and can be easily realized by using micromachining techniques and flexible printed circuit board (FPCB) technologies. The sensing array consists of a polydimethlysiloxane (PDMS) structure and a FPCB. Each shear sensing element comprises four capacitive sensing cells arranged in a 2 × 2 array, and each capacitive sensing cell has two sensing electrodes and a common floating electrode. The sensing electrodes as well as the metal interconnect for signal scanning are implemented on the FPCB, while the floating electrodes are patterned on the PDMS structure. This design can effectively reduce the complexity of the capacitive structures, and thus makes the device highly manufacturable. The characteristics of the devices with different dimensions were measured and discussed. A scanning circuit was also designed and implemented. The measured maximum sensitivity is 1.67%/mN. The minimum resolvable force is 26 mN measured by the scanning circuit. The capacitance distributions induced by normal and shear forces were also successfully captured by the sensing array
Pressure and Chemical Gas Sensing Applications of Liquid Crystal and Carbon Nanotubes
No full text在本研究中,利用奈米碳管(carbon nanotube, CNT)、液晶(liquid crystal, LC)及聚合物分散液晶(polymer-dispersed liquid crystal, PDLC)之複合材料,應用於製作觸覺壓力及化學氣體感測器。
將奈米碳管均勻分散於液晶之中,可作為觸覺壓力感測器的壓阻性(piezoresistive)感測材料。透過外部場(external field)的操作,使元件具有可調整(tunable)壓力感測範圍(sensing ranges)之功能。奈米碳管與液晶複合材料(CNT-LC)被封裝於有彈性的聚二甲基矽氧烷(polydimethylsiloxane, PDMS)結構中。上、下層電極結構分別為可撓性聚對苯二甲酸乙二酯(polyethylene terephthalate, PET)和玻璃基材,表面皆濺鍍上氧化因錫(indium tin oxide, ITO)透明導電薄膜作為電訊號傳導之媒介。CNT-LC材料的導電性具有頻率相依(frequency dependence)之特性。當施加於元件的交流電壓、頻率改變時,能夠致使CNT-LC材料具有不同的電阻值,而施加壓力於元件上,將導致電阻下降,若元件具有較高的初始電阻值,則能夠承受較高的壓力範圍,反之亦然。因此,本研究將此性質開發設計作為可調整壓力感測範圍之感測陣列,並完成架設壓力量測設備及開發Labview軟體量測控制介面。透過LCR阻抗分析儀,量測元件的壓力感測性能,並針對結果進行分析討論。此外,掃描式電阻量測電路被開發於4×4 CNT-LC壓力感測陣列之應用。
參雜(doping)奈米碳管的PDLC複合材料(CNT-PDLC),被應用作為化學氣體感測元件,用來偵測對人體有危害的甲基膦酸二甲酯(dimethyl methylphosphonate, DMMP)和丙酮(acetone)氣體。PDLC感測薄膜以紫外光聚合的方式,製作成型於平面指叉式(interdigital)電極上。當被檢測的化學氣體以滲透方式擴散進入薄膜,將會改變CNT-PDLC之中,奈米碳管及液晶分子之方向秩序,進一步造成奈米碳管導電網路(conductive network)重組變化,而改變PDLC薄膜之電阻值大小。藉由指叉電極量測薄膜導電性變化,即可精確的量測被檢測化學氣體之濃度。與傳統液晶式化學氣體感測器相較,PDLC能夠有效封裝包覆液晶,使元件穩定性及抗機械震動性能提升。透過簡單的電阻量測電路,即可獲得化學氣體濃度之感測資訊,省去傳統光學量測所需複雜且龐大的設備。此外,PDLC製程容易與電路晶片製程相互整合,可達成攜帶式微型晶片之目標。此研究中,元件對氣體濃度反應相當線性,且重複性良好。元件可感測最低濃度為5 ppm之DMMP氣體及100 ppm之丙酮氣體,符合應用上所需要求。此外,氣體量測、流量控制之實驗架設及Labview軟體介面亦已開發完成。本文中並詳細討論物理、材料因素對元件感測性能之影響,例如:PDLC薄膜厚度、液晶與聚合物混合比例等。實驗亦證明PDLC薄膜不會對乙醇、甲苯、正己烷氣體產生反應。In this work, carbon nanotube (CNT) dispersed in liquid crystal (LC) and polymer-dispersed LC (PDLC) are proposed for sensing applications. Carbon nanotube dispersed in nematic liquid crystal (CNT-LC) is employed as the piezoresistive sensing material. The force sensing ranges in this tactile device can be tuned by varying frequency of the driving voltage supplied by the array scanning circuitry. The structure of the sensing element, in which the CNT-LC composites is sealed, consists of a deformable PDMS elastomeric structure, an indium tin oxide (ITO) glass substrate, and an ITO polyethylene terephthalate (PET) film. The frequency dependence of electrical conductivity for CNT-LC composites has been reported. Lower driving frequency of CNT-LC composites induces higher resistivity. This tunable capability can be employed for the applications which require different measurement ranges of forces, without the need of adjusting the dynamic ranges of the sensor readout circuitry. An experimental apparatus with Labview operating program system for measuring the characteristics of the devices is developed and the tunable sensing capability is successfully captured. The driving and scanning circuit for 4×4 pressure sensing array is also designed and implemented.
A novel chemical sensor for DMMP and acetone detection is proposed in this thesis. The sensor uses a sensing film consisting of a polymer-dispersed liquid crystal doped with carbon nanotubes (CNT-PDLC). The sensing element comprises a PDLC sensing film and planar interdigital electrode pairs. Targeted analytes diffuse through the CNT-PDLC film when the sensor is exposed to chemical gas. The chemical molecules destroy the ordering of the LC phase, results in an isotropic liquid phase. After an orientational ordering transition within the CNTs and LCs, the CNT conducting networks in the PDLC are restructured, which in turn increases the resistance of the polymer. Concentrations of chemical gas can be detected by measuring the changes in the electrical resistance of the sensing film. Compared to typical LC-based sensors, the proposed PDLC device is sufficiently durable to withstand gravitational forces and mechanical shocks. The sensing signals can be retrieved by using a simple readout circuitry. A volatile organic compounds (VOCs) experimental apparatus with Labview user interface is also developed to evaluate the performance of the device. A linear response with good reproducibility was achieved. The minimum detected concentrations of DMMP and acetone are 5 ppm and 100 ppm, respectively. The response time of the device is similar to that of typical LC-based sensors. In addition, the influences of the film thicknesses and the LC and polymer mixing ratios on the sensor performance were studied. The proposed acetone sensors have excellent selectivity among ethanol, toluene, and hexane gases.致謝 I
摘要 V
Abstract VII
目錄 IX
圖目錄 XIII
表目錄 XXI
符號表 XXIII
第一章 緒論 1
1.1. 前言 1
1.2. 論文架構 4
第二章 文獻回顧與研究動機 7
2.1. 觸覺壓力感測器 7
2.2. 液晶式化學氣體感測器 18
2.3. 研究動機 24
第三章 材料性質與理論 27
3.1. 液晶 (Liquid crystal) 27
3.1.1. 液晶材料之簡介 27
3.1.2. 液晶材料之分類 31
3.1.3. 液晶材料之性質 47
3.2. 奈米碳管 (Carbon nanotubes) 54
3.2.1. 奈米碳管材料之簡介 54
3.2.2. 奈米碳管材料之性質 56
第四章 觸覺壓力感測陣列之開發 59
4.1. 奈米碳管-液晶複合材料與元件操作理論 59
4.1.1. 液晶混合奈米碳管複合材料之簡介 59
4.1.2. 奈米碳管-液晶複合材料之導電性質與理論 64
4.1.3. 元件操作理論 70
4.2. 元件設計及製作流程 72
4.2.1. 感測陣列元件設計 72
4.2.2. 奈米碳管-液晶複合材料樣品製備 74
4.2.3. 感測陣列元件製作 78
4.2.4. 感測測試單元之設計與製作 83
4.3. 量測系統與感測陣列電路 86
4.3.1. 量測系統架設 86
4.3.2. 掃描式壓力感測陣列電路 90
4.4. 量測結果與討論 94
第五章 化學氣體感測元件之開發 99
5.1. 聚合物分散液晶(PDLC)複合材料 99
5.1.1. 聚合物分散液晶複合材料之簡介 99
5.1.2. 聚合物分散液晶複合材料之光電性質 104
5.1.3. 聚合物分散液晶摻雜奈米粒子之性質 106
5.1.4. 聚合物分散液晶複合材料之應用 108
5.2. 元件設計與理論 112
5.2.1. 元件設計與氣體感測機制 112
5.2.2. 氣體擴散理論 115
5.3. 元件製作 120
5.4. 氣體量測系統架設 122
5.5. 量測結果與討論 129
5.5.1. DMMP化學氣體反應 129
5.5.2. Acetone化學氣體反應 133
第六章 結論及未來展望 145
6.1. 結論 145
6.2. 未來展望 147
參考文獻 149
附錄A Process Traveller-I 173
附錄B Process Traveller-II 191
附錄C 個人簡歷 19
Supplemental material for publication JAAD-D-19-02389 (Chun-Yu Lai et al. Association between bullous pemphigoid and ischemic heart diseases: A systematic review and meta-analysis. J Am Acad Dermatol. 2020)
No full textSupplemental material for publication JAAD-D-19-02389 (Chun-Yu Lai et al. Association between bullous pemphigoid and ischemic heart diseases: A systematic review and meta-analysis. J Am Acad Dermatol. 2020
A tactile sensing array with tunable sensing ranges using liquid crystal and carbon nanotubes composites
No full text- …
