Facility Agricultural: Green Energy Development and Carbon OffsetDepartment of Materials Science Engineering / Lai, Ying-Chih / Professor
設施農業:農業綠能開發與碳匯補償【材料科學與工程學系賴盈至教授/優聘教師】
論文篇名 英文:MXene-composite-enabled Ultra-long-distance-detection and Highly-sensitive Self-powered Noncontact Triboelectric Sensors and Their Applications in Intelligent Vehicle Perception
中文:MXene複合材料超遠距離偵測高靈敏自供電非接觸摩擦電感測器及其在智慧車輛感知的應用
期刊名稱 Nano Energy
發表年份,卷數,起迄頁數 2023, 2306381
作者 Zhao, Cong; Wang, Zhaoyang; Wang, Yawei; Qian, Zian; Tan, Zheng; Chen, Qingyu; Pan, Xinxiang; Xu, Minyi; Lai, Ying-Chih(賴盈至)*
DOI 10.1002/adfm.202306381
中文摘要 隨著感測器技術的不斷進步,智慧、安全、低碳的汽車的發展將在不久的將來成為可能。 然而,為眾多車載感測器提供持續供電會消耗車輛的大量電力,導致運行時間縮短。 本文提出了一種具有超長距離檢測和高靈敏度的自供電非接觸式摩擦奈米發電機(SNC-TENG),可用作智慧車輛的環境感知感測器。 SNC-TENG 由 MXene/矽奈米複合材料和完全嵌入的導電海綿構成,可顯著豐富摩擦電荷並帶來出色的性能和性能。 此 SNC-TENG 能夠感知 2 m 距離內的人類活動。此 SNC-TENG 的單位面積感知距離是先前報告的非接觸式 TENG 中最高的。 此外,首次探討了SNC-TENG在車輛哨兵模式和盲點偵測方面的適用性。 該技術在實際車輛中的使用證明了其在實際應用中的可行性。 總的來說,這項研究為非接觸式自供電感測器提供了一種新的設計方案,所提出的SNC-TENG有望適用於需要非接觸式感測的各個領域。
英文摘要 With the ongoing advancement in sensor technologies, the development of intelligent, secure, and low-carbon vehicles will be possible in the near future. However, providing continuous power to numerous onboard sensors consumes substantial amounts of power from vehicle, resulting in the shortened running times. Herein, a self-powered noncontact triboelectric nanogenerator (SNC-TENG) with ultralong-distance detection and a high sensitivity is proposed, which can be used as ambient perception sensors for smart vehicles. The SNC-TENG is constructed from a MXene/silicone nanocomposite with a fully embedded conductive sponge, which significantly enriches the tribo-charges and leads to an excellent capability and performance. This SNC-TENG is capable of perceiving human activity from a distance of 2 m. To the best of authors knowledge, the perceiving distance per unit area of this SNC-TENG is the highest among previously reported non-contact TENGs. Furthermore, the applicability of the SNC-TENG is explored for vehicle sentry mode and blind spot detection for the first time. The use of this technology in a real vehicle demonstrates its feasibility for use in practical applications. Overall, this study provides a new design scheme for contactless self-powered sensors, and the presented SNC-TENG is expected to be applicable in various fields where non-contact sensing is required.
發表成果與本中心研究主題相關性 本研究利用Mxene複合材料實現非接觸的納米發電機,可避免摩擦奈米發電機的材料耗損,提升壽命,也可用於電動車的感測使用。可用於農場能源採集,與無人運輸車使用。