Liquid Sensor(液体传感器)研究综述
Liquid Sensor 液体传感器 - In this study, we demonstrate the effect of the microbottle resonator (MBR) based on whispering gallery modes (WGMs) with two different diameters of tapered microfibre and its experiment with the formaldehyde (CH2O) liquid sensor. [1] Liquid sensors, a crucial component in next-generation smart devices, were developed in this report through LIGP technology. [2] The fabrication of hydrophilic porous hydrogel, with high mechanical strength and good uptake capacity is desirable for a broad range of applications such as drug delivery and liquid sensors. [3] In the present work, we present a novel metal/PSi-1DPC as a liquid sensor based on Tamm/Fano resonances. [4] The same design has been used as a liquid sensor and a sensitivity of 550 nm/RIU has been achieved with a detection limit of 0. [5] The purpose of the work is to find solutions to overcome SAW-based liquid sensors limitations and the developing of a new sensor that uses acoustic measurements and includes a SAW device and acoustic metamaterial. [6] Liquid sensors composed of ionic liquids are rising as alternatives to solid semiconductors for flexible and self-healing electronics. [7]在这项研究中,我们展示了基于回音壁模式 (WGM) 的微型瓶谐振器 (MBR) 的效果,该微型瓶谐振器 (MBR) 具有两种不同直径的锥形微纤维及其与甲醛 (CH2O) 液体传感器的实验。 [1] 液体传感器是下一代智能设备的关键组件,在本报告中通过 LIGP 技术开发。 [2] 制备具有高机械强度和良好吸收能力的亲水性多孔水凝胶对于药物输送和液体传感器等广泛的应用来说是理想的。 [3] 在目前的工作中,我们提出了一种基于 Tamm/Fano 共振的新型金属/PSi-1DPC 作为液体传感器。 [4] 相同的设计已被用作液体传感器,灵敏度为 550 nm/RIU,检测限为 0。 [5] 这项工作的目的是寻找解决方案来克服基于 SAW 的液体传感器的局限性,并开发一种使用声学测量并包括 SAW 设备和声学超材料的新传感器。 [6] 由离子液体组成的液体传感器正逐渐成为用于柔性和自愈电子设备的固体半导体的替代品。 [7]
low cost real
The microwave-based liquid sensors are indispensable techniques which can provide many advantages such as low cost, real time and label free for biological or chemical measurements. [1] The microwave-based liquid sensors are indispensable techniques which can provide many advantages such as low cost, real time and label free for biological or chemical measurements. [2] The microwave-based liquid sensors are indispensable techniques which can provide many advantages such as low cost, real time and label free for biological or chemical measurements. [3]基于微波的液体传感器是必不可少的技术,它可以为生物或化学测量提供许多优点,例如低成本、实时和无标记。 [1] 基于微波的液体传感器是必不可少的技术,它可以为生物或化学测量提供许多优点,例如低成本、实时和无标记。 [2] nan [3]