Showing results 1 to 20 of 107
next >
Issue Date | Title | Author(s) | Text |
- | alpha-Cyclodextrin-modified infrared chemical sensing system that utilizes enzymatic reactions for the determination of glucose | Yang, J.; 楊吉斯; Liang, S.C. | - |
- | alpha-Cyclodextrin-modified infrared chemical sensor for selective determination of tyrosine in biological fluids | Lee, C.J.; 楊吉斯; Yang, J. | - |
- | alpha-Cyclodextrin-modified infrared sensing system for rapidly determining the enantiomeric composition of chiral compounds | Lee, C.J.; 楊吉斯; Yang, J. | - |
- | Characterization of cyclodextrin modified infrared chemical sensors. Part II. Selective and quantitative determination of aromatic acids | Yang, J.S.; 楊吉斯; Lin, H.J.; Huang, H.Y. | - |
- | Characterization of cyclodextrin-modified infrared chemical sensors - Part I. Modeling the mechanisms of interaction | Yang, J.S.; 楊吉斯; Lin, H.J.; Huang, H.Y. | - |
- | Characterization of infrared chemical sensors modified with ZnO nanowires for the detection of volatile organic compounds | Yang, J.; 楊吉斯; Shih, Y.R.; Chen, I.C.; Kuo, C.I.; Huang, Y.S. | - |
- | Characterization of Thio Compounds for a Surface-Controlled Electroless Deposition Method in the Preparation of Silver Nanoparticles on Germanium for Surface-Enhanced Infrared Absorption Measurements | Chang, R.L.J.; 楊吉斯; Yang, J. | - |
- | Chemical Reduction Method for Preparation of Silver Nanoparticles on a Silver Chloride Substrate for Application in Surface-Enhanced Infrared Optical Sensors | Rao, G.P.C.; 楊吉斯; Yang, J. | - |
- | Combination of HPLC and FT-IR Spectrometry Based on Infrared Hollow Waveguide Sampler (II) | 楊吉斯 | - |
- | Combination of HPLC and FT-IR Spectrometry Based on Infrared Hollow Waveguide Sampler (III) | 楊吉斯 | - |
- | Cooled internal reflection element for infrared chemical sensing of volatile to semi-volatile organic compounds in the headspace of aqueous solutions | Yang, J.; 楊吉斯; Tsai, S.S. | - |
- | Decoration of silver nanoparticles on surface–functionalized magnetic microspheres for rapid determination of creatinine in urine sample by surface–enhanced Raman spectroscopy | 周于展; Yu–Jhan Chou | |
- | Development and Application of Infrared Optical Chemical Sensor (II) | 楊吉斯; 簡麗鳳 | - |
- | Development of a ZnO-modified Light-Scattering Sensor for the Detection of Alcohols | Nian, S.J.; 楊吉斯; Yang, J. | - |
- | Development of an aminocarboxylic acid-modified infrared chemical sensor for selective determination of tyrosine in urine | Lin, H.C.; 楊吉斯; Chou, Y.H.; Yang, J. | - |
- | Development of an infrared hollow waveguide sampler for the detection of organic compounds in aqueous solutions with limited sample volumes | Yang, J.S.; 楊吉斯; Chen, P.Y. | - |
- | Development of Infrared Optical Sensor for Detection of Organic Compoundsin Aqueous Solutions (III) | 楊吉斯 | - |
- | Development of infrared optical sensor for selective detection of tyrosine in biological fluids | Huang, G.G.; 楊吉斯; Yang, J. | - |
- | Development of method for preparation of surface-enhanced substrate based on chemical techniques of chemical plating, imprinting and etching | Yi-Cun Ye; 葉奕村 | |
- | Development of Noble Metal Decorated Magnetic Structures as Surface-Enhanced Raman Scattering Substrates for Determination of Biologically Important Species | 艾麥理; Melisew Tadele Alula | |