Chi-Yung Cheng scite author profile

Chi-Yung Cheng

4Publications

18Citation Statements Received

70Citation Statements Given

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National Tsing Hua University

Publications

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Detection of third-hand smoke on clothing fibers with a surface acoustic wave gas sensor

Cheng

Huang

Yang

et al. 2016

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Third-hand smoke (THS) is a new cigarette-related issue defined as the residual contamination from cigarette smoke after a cigarette is extinguished. To detect THS on three commonly used clothing fibers-wool, cotton, and polyester, we applied two methods to measure the adsorption of THS: one was the gain of mass with an analytical balance after exposure to cigarette smoke; and the other was to detect the THS chemical compounds such as nicotine and 3-ethenylpyridine with a surface acoustic wave (SAW) sensor composed of coated oxidized hollow mesoporous carbon nanospheres. In the mass measurement, the gain of mass decreased in the order wool, cotton, and polyester; the latter gain was about one tenth that of wool. In the SAW detection, the frequency shift decreased in the same order-wool, cotton, and polyester. The residence period of THS on natural fiber (wool and cotton) is greater than on synthetic polyester fiber. These two tests provide quantitative results of THS on varied clothing fibers, to assess their risk after exposure to cigarette smoke.

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Detection of Cigarette Smoke Using a Surface-Acoustic-Wave Gas Sensor with Non-Polymer-Based Oxidized Hollow Mesoporous Carbon Nanospheres

et al. 2019

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The objective of this research was to develop a surface-acoustic-wave (SAW) sensor of cigarette smoke to prevent tobacco hazards and to detect cigarette smoke in real time through the adsorption of an ambient tobacco marker. The SAW sensor was coated with oxidized hollow mesoporous carbon nanospheres (O-HMC) as a sensing material of a new type, which replaced a polymer. O-HMC were fabricated using nitric acid to form carboxyl groups on carbon frameworks. The modified conditions of O-HMC were analyzed with Scanning Electron Microscopy (SEM), Fourier transform infrared spectrometry (FTIR), and X-ray diffraction (XRD). The appropriately modified O-HMC are more sensitive than polyacrylic acid and hollow mesoporous carbon nanospheres (PAA-HMC), which is proven by normalization. This increases the sensitivity of a standard tobacco marker (3-ethenylpyridine, 3-EP) from 37.8 to 51.2 Hz/ppm and prevents the drawbacks of a polymer-based sensing material. On filtering particles above 1 μm and using tar to prevent tar adhesion, the SAW sensor detects cigarette smoke with sufficient sensitivity and satisfactory repeatability. Tests, showing satisfactory selectivity to the cigarette smoke marker (3-EP) with interfering gases CH4, CO, and CO2, show that CO and CO2 have a negligible role during the detection of cigarette smoke.

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The application of expert system in the design of crt information display for process control systems

Cheng

Hwang

1991

Int. J. Hum. Factors Manuf.

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In this study, an expert system for the design of CRT information display was developed which organized the relevant design knowledge and provided a user‐friendly tool for the design of information display. An optimal design depends on the integration of many different aspects of knowledge, such as system characteristics, mental models, human factors principles, etc. In this study, the concept of mental model was applied during the process of design, and the knowledge was analyzed to fit the structure of the expert system.

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Rapid cigarette detection by using surface acoustic wave gas sensor with non-polymer sensing film

Cheng

Hao

Huang

et al. 2015

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Chi-Yung Cheng

Detection of third-hand smoke on clothing fibers with a surface acoustic wave gas sensor

Detection of Cigarette Smoke Using a Surface-Acoustic-Wave Gas Sensor with Non-Polymer-Based Oxidized Hollow Mesoporous Carbon Nanospheres

The application of expert system in the design of crt information display for process control systems

Rapid cigarette detection by using surface acoustic wave gas sensor with non-polymer sensing film

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