微流控传感器平台技术增强荧光

Q4 Medicine

Revista Bionatura Pub Date : 2023-10-15 DOI:10.21931/rb/css/2023.08.03.52

Noor luay Hussein, Zainab Al-Bawi

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引用次数: 0

摘要

生物学、物理学、流体动力学、化学、材料科学和微电子学的综合概念为相对年轻的微流体领域提供了基础。各种材料都可以加工成具有微型通道和腔室的微型芯片。在PMMA材料和生产方法方面，微流控生物传感器平台技术也侧重于通过添加碳纳米管增强罗丹明B的荧光，具有限制检测、高灵敏度、高稳定性、可重复性等额外优点。、分析反应快、样品量消耗低、处理量高、操作简便等也是这些设备应用的显著特点。关键词:微流体;CO2激光烧蚀;共聚焦激光扫描显微镜，PMMA，碳纳米管，荧光。

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Microfluidic sensors platform technology to enhancement fluorescence

The integrated concepts of biology, physics, fluid dynamics, chemistry, material science, and microelectronics provide the foundation of the relatively young area of microfluidics. Various materials may be processed into tiny chips with microscale channels and chambers. Regarding PMMA material and production methods, microfluidic biosensor platform technology also focuses on enhancing rhodamine B's fluorescence via adding carbon nanotubes, with additional benefits including restricted detection, high sensitivity, high stability, repeatability., quick response analysis, low consumption of sample volume, high throughput, also ease of operation applications of these remarkable devices. Keywords: microfluidics, CO2 laser ablation; Confocal Laser Scanning Microscope, PMMA, Carbon nanotubes, fluorescent.

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来源期刊

Revista Bionatura Medicine-Epidemiology

CiteScore

0.50

自引率

0.00%

发文量

144

审稿时长

8 weeks