博碩士論文 103521068 完整後設資料紀錄

DC 欄位 語言
DC.contributor電機工程學系zh_TW
DC.creator黃俊諺zh_TW
DC.creatorHuang,Chun,Yenen_US
dc.date.accessioned2016-8-29T07:39:07Z
dc.date.available2016-8-29T07:39:07Z
dc.date.issued2016
dc.identifier.urihttp://ir.lib.ncu.edu.tw:444/thesis/view_etd.asp?URN=103521068
dc.contributor.department電機工程學系zh_TW
DC.description國立中央大學zh_TW
DC.descriptionNational Central Universityen_US
dc.description.abstract本研究採用網板印刷技術並將網印碳漿添加石墨烯(Graphene)與碳酸鈣(CaCO3)進行改良,開發出石墨烯多孔網印碳電極。透過循環伏安法(CV)研究電極對赤血鹽溶液之電化學性能,結果顯示石墨烯多孔碳電極比純碳電極電流響應高出2.4倍。電化學阻抗譜(EIS)量測實驗中,獲得石墨烯多孔碳電極與純碳電極之電荷轉移電阻分別為3.93 kΩ與7.02 kΩ,降低55%,並且透過電雙層電容值計算出表面積提升1.8倍。掃描式電子顯微鏡(SEM)下,觀察到電極表面孔洞與石墨烯層狀皺褶結構使得表面積提升,證實本研究開發出改良電化學特性之電極。   應用方面,以石墨烯多孔網印碳電極為基礎,製備出電流式肌酐酸(Creatinine)感測器與抗體式白蛋白(Albumin)感測器,用於檢測人體血液裡肌酐酸濃度與尿液裡白蛋白濃度,這兩者的濃度都是評估慢性腎臟病的重要指標。肌酐酸感測器是採用三酵素系統催化肌酐酸而增加氧化還原反應電流;純溶液實驗中,在濃度0500 μM區間能獲得具有高度決定係數(R2 = 0.994)之檢量線。並且在含有干擾物(尿酸、對乙醯氨基酚、抗壞血酸)的情況下,仍然獲得具有高度決定係數(R2 = 0.991)之檢量線,實驗結果誤差皆小於1.3%。白蛋白感測器則是利用抗原與抗體間的特異性吸附而降低電流響應;純溶液實驗中,在濃度10300 mg/L亦獲得了具有高度決定係數(R2 = 0.995)之檢量線。在含有干擾物(尿酸、葡萄糖、抗壞血酸、肌酐酸)的情況下,仍然能獲得具有高度決定係數(R2 = 0.994)之檢量線,實驗結果誤差小於2.8%。   此外,本研究改良攜帶式恆電位儀,整合肌酐酸與白蛋白兩種檢測平台,修改使用者選單,硬體方面則新增快閃記憶體(flash memory)與電源轉換器,使攜帶式恆電位儀能儲存一百筆量測記錄,並能用市面上常見3號(AA)乾電池驅動電路。攜帶式恆電位儀連接感測器後,可進行肌肝酸或白蛋白濃度檢測,實驗結果顯示,在含有干擾物情況下分別能獲得具有高度決定係數(R2 = 0.988,R2 = 0.992)之檢量線,其結果也和大型量測儀IM6ex量測結果誤差不到1.9%,人體樣品量測中平均誤差不到4%,與醫院檢測結果平均誤差約7%,證實該方便、簡易的裝置能用於肌酐酸與白蛋白之精準檢測。zh_TW
dc.description.abstractThis study focused on the development of screen-printed graphene porous carbon electrode and portable potentiostat for detecting albumin and creatinine in clinical samples.   Screen-printed graphene porous carbon electrode was fabricated by mixing graphene and calcium carbonate (CaCO3) in carbon paste and printed on polycarbonate (PC) substrate. Cyclic voltammetry (CV) redox peak currents for graphene porous carbon electrode were 2.4 times higher than the bare carbon electrode. Electrochemical impedance spectroscopy (EIS) analysis showed that the charge transfer resistance of the graphene porous carbon electrodes and carbon electrode was 3.93 kΩ and 7.02 kΩ respectively, incorporation of graphene with carbon paste reduced the charge transfer resistance by 55%. From the electric double-layer capacitance value, it was inferred that the surface area of graphene porous carbon electrodes increased by 1.8 times. Scanning electron microscope (SEM) images revealed that the graphene porous carbon electrode surface exhibited porous structure with great number of holes and crumpled graphene nanosheets.   The developed screen-printed graphene porous carbon electrode sensor was employed for albumin detection in human urine and creatinine detection in human blood samples. With possible interferences, the sensor can detect albumin in the linear range from 10 to 300 mg/L with a coefficient of determination R2=0.994. In creatinine detection with interference, the calibration curve with a coefficient of determination R2=0.991 was obtained for the creatinine concentration range 0500 μM.   Portable potentiostat was developed with creatinine and albumin detection functions. Portable potentiostat consists of friendly user menu, flash memory to store hundred records and AA battery for power supply. The reformed portable potentiostat was used to detect creatinine or albumin by connecting creatinine sensor or albumin sensor. The calibration line with high coefficient of determination (R2=0.988, R2=0.992) was obtained for creatinine detection and albumin detection. The response of the potentiostat is similar to the commercial instrument IM6ex with error less than 1.9%. Confirmed that this portable potentiostat collocation graphene porous carbon electrodes can accurate and convenient detect albumin or creatinine. The graphene-based sensor and portable potentiostat proposed herein can be used for detecting albumin and creatinine accurately and user-friendly.en_US
DC.subject電化學zh_TW
DC.subject肌酐酸zh_TW
DC.subject白蛋白zh_TW
DC.subject腎臟病zh_TW
DC.subject網印碳電極zh_TW
DC.subjectScreen printed carbon electrodeen_US
DC.subjectkidney diseaseen_US
DC.subjectalbuminen_US
DC.subjectcreatinineen_US
DC.subjectElectrochemistryen_US
DC.title開發石墨烯多孔碳電極搭配攜帶式裝置用於肌肝酸與白蛋白檢測zh_TW
dc.language.isozh-TWzh-TW
DC.type博碩士論文zh_TW
DC.typethesisen_US
DC.publisherNational Central Universityen_US

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