Hui Yi Chen scite author profile

Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) is a simple and fast technique for the analysis of large biomolecules but is not suitable for the detection of low molecular weight molecules and compounds, such as flavonoids and phenylpropanoids, mainly due to the lack of an appropriate matrix. Flavonoids and phenylpropanoids, such as coumarin and its derivatives, have attracted much attention recently because of their pharmacological activities and putative therapeutic benefits. In this study, we developed a quick and simple LDI-TOF MS method for the detection of flavonoids and the derivatives of coumarin. Analytes were spotted onto a matrix of graphene-based nanoparticles and then analyzed by LDI-TOF MS in the negative ion mode. Analysis of the sensitivity and effect of different graphene-based nanoparticles including graphene, graphene oxide, and reduced graphene oxide on desorption/ionization of analytes showed that graphene oxide was the most suitable matrix. Moreover, we found that graphene oxide sheets of larger lateral size resulted in better desorption/ionization efficiency. Overall, we show that graphene oxide is a useful matrix for the analysis of flavonoids and the derivatives of coumarin by LDI-TOF MS in the negative ion mode.

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Reflection type heterodyne grating interferometry for in-plane displacement measurement

Hsu

Lee

et al. 2008

Optics Communications

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Heterodyne interferometer for measurement of in-plane displacement with subnanometer resolution

Lee

Chen

Hsu

et al. 2006

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A novel method of the measurement of in-plane displacement is presented. This method includes a heterodyne light source, a moving grating and a lock-in amplifier for phase measurement. The phase variation which resulted from the grating movement is measured by an optical heterodyne interferometer. The short and long displacement can be measured by our method. The theoretical resolution is about 1 pm. If considering the high frequency noise, the measurement error or resolution is about 0.2 nm yet.

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A Simple and Effective Method of Temperature Calibration to Improve the Accuracy of Thermal Conductivity Instrument

Nie

Chen

et al. 2013

AMM

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Errors in measurement of temperature have a significant negative impact on the thermal conductivity measurement. This paper analyses the causes of temperature error and why a small temperature error could often cause a huge error in thermal conductivity instrument. Since traditional methods often involve complex circuits or formulas, here we introduce a convenient and efficient method to improve temperature measurement accuracy, which by effectively combination of the table consulting and a new simple interpolation method introduced in this paper. It is implemented in the LabVIEW environment and experimental results show the accuracy of the instrument has been greatly improved.

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Hui Yi Chen

Optical heterodyne grating interferometry for displacement measurement with subnanometric resolution

Analysis of flavonoids by graphene-based surface-assisted laser desorption/ionization time-of-flight mass spectrometry

Reflection type heterodyne grating interferometry for in-plane displacement measurement

Heterodyne interferometer for measurement of in-plane displacement with subnanometer resolution

A Simple and Effective Method of Temperature Calibration to Improve the Accuracy of Thermal Conductivity Instrument

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