物聯網之熱感測器應用

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姓名

林松霖(Song-Lin Lin) 查詢紙本館藏

畢業系所

電機工程學系

論文名稱

物聯網之熱感測器應用
(Temperature sensor for internet of things)

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至系統瀏覽論文 ( 永不開放)

摘要(中)

在物聯網時代，物品與物品之間的訊息傳遞，感測器將是非常重要的元件之一。
本論文將以熱致相變材料二氧化釩的光學特性進行探討，利用二氧化鎢將相變化溫度調整至室溫範圍，並將摻雜鎢的二氧化釩粉末與PVB膠混合後製成PVB薄膜，並討論其結果與改善方法，以期後續能提升該薄膜的實用性。

摘要(英)

At the age of internet of things (IoT), the message communication between items relies on the sensors, which will be one of the most important components for signal detection.
In this paper, the optical properties of the thermochromic material, vanadium dioxide, were studied. The tungsten dioxide was used to adjust the phase change temperature to room temperature, and mixed in the PVB film. The temperature-dependent transmission was measured to prove its feasibility and potential application on IoT in near future.

關鍵字(中)

★ 二氧化釩
★ 熱致相變
★ 二氧化鎢
★ 熱感測器

關鍵字(英)

★ vanadium dioxide
★ Thermochromic materials
★ Tungsten oxide
★ Temperature Sensor

論文目次

摘要 i
Abstract ii
目錄 iii
圖目錄 v
第一章、導論 1
1-1前言 1
1-2 研究動機 5
第二章、二氧化釩材料介紹與文獻回顧 6
2-1二氧化釩之特性 6
2-2二氧化釩奈米粉末製備 8
2-3摻雜物對二氧化釩相變溫度影響 8
第三章、實驗方法與儀器 9
3-1實驗流程設計 9
3-2實驗步驟 10
3-2-1 VOC2O4．H2O前驅物 10
3-2-2還原二氧化釩奈米粉末 10
3-2-3二氧化釩奈米粉末摻雜二氧化鎢奈米粉末 11
3-2-4冷壓後燒結法 11
3-2-5 PVB薄膜製作 12
3-3實驗儀器 13
3-3-1 XRD(X-ray diffraction) 13
3-3-2 DSC(Differential scanning calorimetry) 13
3-3-3 SEM(Scanning Electron Microscope) 14
3-3-4 1550 nm Laser & Power Meter 14
3-3-5球磨機 14
第四章、實驗結果與討論 23
4-1 前言 24
4-2實驗分析 24
4-2-1二氧化釩奈米粉末XRD與SEM分析 24
4-2-2摻雜鎢之二氧化釩奈米粉末XRD與DSC分析 24
4-2-3 1550nm Laser 功率變化量測 25
第五章、結論 40
參考文獻 41

參考文獻

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指導教授

辛正倫

審核日期

2017-10-30

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