8) was pipetted into plastic cuvette and subsequently 40 ��L of the sample was added. Spectra were recorded after 5 min long incubation of a reagent with a sample. After a measurement, cuvettes were rins
Capacitive-based, piezoresistive-based, and piezoelectric-based sensors are commonly used for tactile sensing. A flexible membrane and gap are typically included in a capacitive-based sensor, which can be widely used for applications in mobile robot contact force arrays [1], pressure sensors [2,3], proximity sensors [4], and tactile sensing arrays [5]. The applied pressure of piezoresistive-based tactile sensors [6] results in resistance changes and can be used for force sensors [7], pressure sensors [8], and tactile sensors [9].
However, capacitive-based tactile sensors typically require high voltage operation, whereas piezoresistive-based tactile sensors encounter signal drift caused by temperature changes. Therefore, piezoelectric-based sensors were chosen to examine tactile sensing applications.Among various piezoelectric-based materials, lead zirconium titanate (PZT) thin-film is an excellent ferroelectric material for tactile sensor applications. PZT-based sensors have several advantages, such as high sensitivity, wide frequency bandwidth, and fast response. Thus, these sensors can be widely used for micro-electromechanical systems (MEMS) applications, such as in the areas of transducers [10], micromirrors [11,12], switches [13], gas sensors [14], pyroelectric sensors [15,16], energy harvesting devices [17�C19], and tactile sensors [20].
Tactile sensors fabricated using MEMS offer the advantages of small size, mature technologies, and low cost processing. PZT thin-films fabricated using the sol-gel method provides the advantages of easy processing, low annealing temperature, and excellent piezoelectric characteristics. Accurate Zr/Ti element composition can be controlled in the sol-gel deposition process; thus, a composite material with a high ferroelectric property (Zr/Ti with a ratio of 52:48) can be obtained.Various sensors, such as piezoelectric-based sensors [21�C25], Carfilzomib optical sensors [26�C29], and laser Doppler [30] sensors have been used for measurements of human body pulses at various artery regions. For piezoelectric-based tactile sensors, the mechanical energy can be transferred to electrical energy using an applied pressure, and the sensors have the advantages of high sensitivity, improved hysteresis, excellent repeatability, and high durability.
In addition, flexible materials, such as aluminium nitride (AlN), lead-lanthanum-zirconate-titanate (PLZT), and polyvinylidene difluoride (PVDF) can be used for piezoelectric-based sensing applications.We developed a novel sol-gel process to fabricate the PZT thin-film on a flexible stainless steel substrate. The proposed process has the advantages of simple fabrication with a lower cost for various applications.