In this study,tin oxide sensing membrane was derived by sol-gel method and was coated onto indium tin oxide (ITO) glass substrate by spin-coating technique to fabricate a pH sensing electrode.Besides,the morphology o...In this study,tin oxide sensing membrane was derived by sol-gel method and was coated onto indium tin oxide (ITO) glass substrate by spin-coating technique to fabricate a pH sensing electrode.Besides,the morphology of the tin oxide membrane has been discussed through the instrumental analysis.Furthermore,the sensing characteristics of the pH electrode was measured by commercial instrumental amplifier as the readout circuit.Owing to the sol-gel method has many advantages such as easy fabrication of gel solution,ability to dope other materials without any expensive fabricating equipment.Hence,it is suitable for the mass production of a disposable sensor.展开更多
Four potentiometer sensor cells have been prepared by using La0.95Pb0.05F2.95 as solid electrolyte(SE) and various materials as electrodes. The sensor cell `Bi(BiF3)|SE|Pt' exhibits the best performance with its 9...Four potentiometer sensor cells have been prepared by using La0.95Pb0.05F2.95 as solid electrolyte(SE) and various materials as electrodes. The sensor cell `Bi(BiF3)|SE|Pt' exhibits the best performance with its 90% response time as short as 75 s to 100 Pa H2 in air at room temperature and with its linear decrease of electromotive force (EMF) with an increase of the logarithm of hydrogen partial pressure in the experimental range. The sensor cell shows weaker response to CO.展开更多
Simple and efficient surface acoustic wave (SAW) two-port resonators with low insertion loss and high Q-values on ST-X quartz substrate using a corrosion-proof A1/Au-stripe electrode structure are developed for gas ...Simple and efficient surface acoustic wave (SAW) two-port resonators with low insertion loss and high Q-values on ST-X quartz substrate using a corrosion-proof A1/Au-stripe electrode structure are developed for gas sensing. It was composed of two shorted grating reflectors and adjacent intedigital transducers (IDT), and an active metal film in the cavity between the IDTs for the sensitive film coating. The devices are expected to provide good protection towards metal electrode for gas sensors application in chemically reactive environments. Excellent device performance as low insertion loss, high Q factor and single-mode are achieved by carefully selecting the metallic electrode thickness, cavity length and acoustic aperture. Prior to fabrication, the coupling of modes (COM) model was performed for device simulation to determine the optimal design parameters. The fabricated single-mode SAW resonator at operation frequency of 300 MHz range exhibits matched insertion loss of ~6.5 dB and loaded Q factor in the 3000 range. Using the fabricated resonator as the feedback element, a duaresonator-oscillator with excellent frequency stability (0.1 ppm) was developed and evaluated experimentally, and it is significant for performance improvement of SAW gas sensor.展开更多
Human-machine interfaces(HMI)are of paramount importance as they serve as essential conduits between humans and the digital realm.However,contemporary designs suffer from the following issues:large number of electrode...Human-machine interfaces(HMI)are of paramount importance as they serve as essential conduits between humans and the digital realm.However,contemporary designs suffer from the following issues:large number of electrodes,complex wiring,redundant data,and high power consumption.This work proposes a body-coupled minimalist human-machine interface for multifunctional touch detection(BM-HMI).The configuration of gradient resistive elements in the S-shape,in conjunction with a detection strategy founded upon the ratio of relative signal amplitudes,facilitates the effective detection of signals across a range of touch and sliding operations utilizing a mere two sensing electrodes.The experimental results demonstrate that the BM-HMI requires no battery,has remarkable stability(over 400,000 cycles),structural simplicity,rapid response time(approximately 5 ms),ultra-low detection threshold(below 0.04 N),robustness,and high scalability.This work presents a novel concept,demonstrating considerable potential for application in smart wearable devices,mixed reality systems,and ubiquitous sensing terminals.展开更多
文摘In this study,tin oxide sensing membrane was derived by sol-gel method and was coated onto indium tin oxide (ITO) glass substrate by spin-coating technique to fabricate a pH sensing electrode.Besides,the morphology of the tin oxide membrane has been discussed through the instrumental analysis.Furthermore,the sensing characteristics of the pH electrode was measured by commercial instrumental amplifier as the readout circuit.Owing to the sol-gel method has many advantages such as easy fabrication of gel solution,ability to dope other materials without any expensive fabricating equipment.Hence,it is suitable for the mass production of a disposable sensor.
基金This project was supported by the National Natural Science Foundation of China Laboratory of Rare Earth Chemistry and Physics,Chinese Academy of Sciences
文摘Four potentiometer sensor cells have been prepared by using La0.95Pb0.05F2.95 as solid electrolyte(SE) and various materials as electrodes. The sensor cell `Bi(BiF3)|SE|Pt' exhibits the best performance with its 90% response time as short as 75 s to 100 Pa H2 in air at room temperature and with its linear decrease of electromotive force (EMF) with an increase of the logarithm of hydrogen partial pressure in the experimental range. The sensor cell shows weaker response to CO.
基金supported by the National Nature Science Foundation of China(11074268,10834010)
文摘Simple and efficient surface acoustic wave (SAW) two-port resonators with low insertion loss and high Q-values on ST-X quartz substrate using a corrosion-proof A1/Au-stripe electrode structure are developed for gas sensing. It was composed of two shorted grating reflectors and adjacent intedigital transducers (IDT), and an active metal film in the cavity between the IDTs for the sensitive film coating. The devices are expected to provide good protection towards metal electrode for gas sensors application in chemically reactive environments. Excellent device performance as low insertion loss, high Q factor and single-mode are achieved by carefully selecting the metallic electrode thickness, cavity length and acoustic aperture. Prior to fabrication, the coupling of modes (COM) model was performed for device simulation to determine the optimal design parameters. The fabricated single-mode SAW resonator at operation frequency of 300 MHz range exhibits matched insertion loss of ~6.5 dB and loaded Q factor in the 3000 range. Using the fabricated resonator as the feedback element, a duaresonator-oscillator with excellent frequency stability (0.1 ppm) was developed and evaluated experimentally, and it is significant for performance improvement of SAW gas sensor.
基金supported by the National Natural Science Foundation of China(No.52505071,No.52475071,No.52475072,No.52305308)the Yanzhao’s Young Scientist Project(2023203258)+5 种基金the Hebei Natural Science Foundation(E2022203002,and E2024203067)the Funded by Science Research Project of Hebei Education Department(QN2025183)the Shijiazhuang Science and Technology Planning Project(241790727A)the Opening Project of the Key Laboratory of Bionic Engineering(Ministry of Education,Jilin UniversityGrant Number KF2023003)The Fundamental Innovative Research Development Project of Yanshan University(2024LGQN008).
文摘Human-machine interfaces(HMI)are of paramount importance as they serve as essential conduits between humans and the digital realm.However,contemporary designs suffer from the following issues:large number of electrodes,complex wiring,redundant data,and high power consumption.This work proposes a body-coupled minimalist human-machine interface for multifunctional touch detection(BM-HMI).The configuration of gradient resistive elements in the S-shape,in conjunction with a detection strategy founded upon the ratio of relative signal amplitudes,facilitates the effective detection of signals across a range of touch and sliding operations utilizing a mere two sensing electrodes.The experimental results demonstrate that the BM-HMI requires no battery,has remarkable stability(over 400,000 cycles),structural simplicity,rapid response time(approximately 5 ms),ultra-low detection threshold(below 0.04 N),robustness,and high scalability.This work presents a novel concept,demonstrating considerable potential for application in smart wearable devices,mixed reality systems,and ubiquitous sensing terminals.
