Ammonia sensing characteristics of ZnO nanowires studied by quartz crystal microbalance

Wang, Xiaohua; Zhang, Jian; Zhu, Zhen

doi:10.1016/j.apsusc.2005.04.047

Cited by 105 publications

(87 citation statements)

References 16 publications

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“…In previous work, studied were mainly focused on the preparation of the ZnO nanorods and growth conditions and solution parameters such as precursor concentration, bath temperature, pH and growth time on the surface morphology and the structure of the ZnO nanorods. The morphology, structure and nature of fabrication of ZnO nanorods can control by some factor such as structure, surface morphology and lattice mismatch of the substrates [13]. In this paper, the chemical bath deposition method is used to prepare high quality ZnO nanorods arrays on a kapton tape (thermal tape) substrate at low temperature for UV photodetector application.…”

Section: Introductionmentioning

confidence: 99%

Fabrication, characterization of ZnO nanorods on the flexible substrate (Kapton tape) via chemical bath deposition for UV photodetector applications

Abdulrahman

Ahmed

et al. 2017

AIP Conference Proceedings

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Section: Introductionmentioning

confidence: 99%

Fabrication, characterization of ZnO nanorods on the flexible substrate (Kapton tape) via chemical bath deposition for UV photodetector applications

Abdulrahman

Ahmed

et al. 2017

AIP Conference Proceedings

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“…Semiconductor Nanowires (NW) with novel functionalities have attracted great interest for electronic applications such as piezoelectronics energy conversion devices, 1-4 as well as sensors, [5][6][7][8][9] memory 10 and optical devices. [11][12][13][14][15][16] Among such systems, ZnO has always stood out due to its attractive wide band gap (3.37 eV at room temperature) with a high exciton binding energy (60 meV), which makes it appropriate for short wavelength optoelectronic applications, such as ultra-violet (UV) detectors, and UV and blue light emitting devices.…”

Section: Introductionmentioning

confidence: 99%

ZnO UV photodetector with controllable quality factor and photosensitivity

et al. 2013

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ZnO nanowires have an enormous potential for applications as ultra-violet (UV) photodetectors. Their mechanism of photocurrent generation is intimately related with the presence of surface states where considerable efforts, such as surface chemical modifications, have been pursued to improve their photodetection capabilities. In this work, we report a step further in this direction demonstrating that the relative photosensitivity and quality factor (Q factor) of the photodetector are entirely tunable by an applied gate voltage. This mechanism enables UV photodetection selectivity ranging from wavelengths from tens of nanometers (full width at half maximum - FWHM) down to a narrow detection of 3 nm. Such control paves the way for novel applications, especially related to the detection of elements that have very sharp luminescence

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“…(23)(24)(25)(26) 2.2 Apparatus SEM images were recorded using a JSM-5610LV electron microscope. The phase and crystallinity were examined by XRD analysis using a Bruker D8 ADVANCE X-ray diffractometer with CuKα radiation (λ = 0.15405 nm).…”

Section: Preparation and Characterization Of Zno Nanotetrapodsmentioning

confidence: 99%

Uric Acid Detection Using Quartz Crystal Microbalance Coated with Uricase Immobilized on ZnO Nanotetrapods

2008

Sensors and Materials

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The sensing properties of uricase immobilized on ZnO nanotetrapods for uric acid detection were studied using a quartz crystal microbalance (QCM). The ZnO nanotetrapods were synthesized by thermally evaporating high-purity zinc pellets (99.999%) at 900°C in air. The sensors were constructed by distributing the ZnO nanotetrapods onto the electrode surfaces of the QCM at room temperature. Then uricase was directly immobilized on the ZnO nanotetrapods for uric acid detection. Our results indicated that this QCM sensor shows high sensitivity (10 6 Hz/mol/L) for uric acid detection in a liquid environment. The frequency response of the sensor showed a linear (r = 0.99872) dependence on uric acid concentration ranging from 5.0×10 -6 to 1.0×10 -3 mol L -1 with a detection limit of 2.0×10 -6 mol L -1 . All the results demonstrated that the one-dimensional ZnO structure is a good material for biosensor application.

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Ammonia sensing characteristics of ZnO nanowires studied by quartz crystal microbalance

Cited by 105 publications

References 16 publications

Fabrication, characterization of ZnO nanorods on the flexible substrate (Kapton tape) via chemical bath deposition for UV photodetector applications

Fabrication, characterization of ZnO nanorods on the flexible substrate (Kapton tape) via chemical bath deposition for UV photodetector applications

ZnO UV photodetector with controllable quality factor and photosensitivity

Uric Acid Detection Using Quartz Crystal Microbalance Coated with Uricase Immobilized on ZnO Nanotetrapods

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