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1. Preparation of thermo-chromic coating and establishment of variable temperature model | |||
Huang Houqiang,He Deliang,Lei Huibin,Hu Jun,Lu Yao | |||
Chemistry 22 May 2018 | |||
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Abstract: 6 reversible thermo-chromic coatings were prepared between thermo-chromic microcapsule and resin such as acrylic resin, silicone resin, respectively. The thermochromic performance and color coordinates (RGB) of the obtained thermochromic coating were evaluated. And models for displaying the relationship between temperatures and coating color coordinates were established using own experiment. Results showed that the correlation coefficient of each temperature model was above 0.9. The temperature measurement errors were about ±1 C after simulated trials of the model, which proved that the feasibility of measure temperature by using the variable temperature model. Also, a contactless method for obtaining specific temperature by thermochromic coating is proposed. | |||
TO cite this article:Huang Houqiang,He Deliang,Lei Huibin, et al. Preparation of thermo-chromic coating and establishment of variable temperature model[OL].[22 May 2018] http://en.paper.edu.cn/en_releasepaper/content/4745170 |
2. Visual Detection of rpoB Mutations in Rifampin-Resistant Mycobacterium tuberculosis Strains by Use of an Asymmetrically Split Peroxidase DNAzyme | |||
Deng Minggang,Feng Shuo,Luo Fengling,Sun Xiaoming,Wang Shaoru,Zhou Xiang,ZHANG Xiao-Lian | |||
Chemistry 03 April 2013 | |||
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Abstract:Multidrug-resistant Mycobacterium tuberculosisis resistant to two first-line antituberculosis drugs, isoniazid and rifampin, resulting in the relapse of tuberculosis. M. tuberculosisgrows very slowly, and thus traditional examination methods take time to test its drug resistance and cannot meet clinical needs. The use of a DNA probe makes it possible to test rifampin resistance. Wedeveloped an asymmetrical split-assembly DNA peroxidase assay to detect drug-resistant mutation of rifampin-resistant M. tuberculosisin the rpoBgene rapidly and visibly. A new strategy was also designed to eliminate the adverse effects caused by the complicated secondary structure of the target DNA and to improve the efficiency of the probes. This detection system consists of five group detections, covers rifampin-resistant determination region of therpoBgene, and tests 40 kinds of mutations, including the most common mutations at codons 531 and 526. Every group detection or individual mutant allele detection can distinguish corresponding mutant DNA sequences from the wild-type DNA sequences. | |||
TO cite this article:Deng Minggang,Feng Shuo,Luo Fengling, et al. Visual Detection of rpoB Mutations in Rifampin-Resistant Mycobacterium tuberculosis Strains by Use of an Asymmetrically Split Peroxidase DNAzyme[OL].[ 3 April 2013] http://en.paper.edu.cn/en_releasepaper/content/4531343 |
3. vanadia funtionalized mesoporous silicates (VMS) and their oxidation activity on aromatic compounds | |||
Fan Hongjie,Ma Peipei,Ren Tiezhen | |||
Chemistry 05 November 2012 | |||
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Abstract:Vanadium-based catalytic mesoporous silicates are the good candidates as the redox catalysts, which are used for degradation of volatile organic compounds and combustion of waste organic pollutants. Vanadium modified mesoporous silicates (VMS) was prepared by in-situ method with the assistant of surfactants Brij 56. The properties of VMS were characterized with SEM, N2-sorption isotherm and UV-vis, their activation was studied on the oxidation of phenol, styrene, anisole and toluene. Those catalysts showed a relative low activity for the conversion of phenol and high activity for toluene. The highest conversion of toluene can be achieved with the catalyst Y05. | |||
TO cite this article:Fan Hongjie,Ma Peipei,Ren Tiezhen. vanadia funtionalized mesoporous silicates (VMS) and their oxidation activity on aromatic compounds[OL].[ 5 November 2012] http://en.paper.edu.cn/en_releasepaper/content/4492916 |
4. Electrochemical reduction of oxygen on nano-structured M (M = Fe, Co, Ce, W)Py/C in alkaline electrolyte | |||
QIAO Jinli,DING Lei,XU Li,DAI Xianfeng | |||
Chemistry 05 January 2012 | |||
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Abstract:This work reports the preparation and characterization of novel non-precious metal catalysts metal catalysts supported on carbon, M (M = Fe, Co, Ce, W )N/C, using a solvent-milling method followed by a heat-treatment at elevated temperature, where pyridine is used as the N-rich ligand for precursor complex formation. The morphology and composition of the catalysts were characterized by Fourier-transform infrared (FT-IR) spectra and thermal analysis (TGA). The catalytic activity on oxygen reduction reaction (ORR) was found to depend strongly on the heat-treatment temperatures and the metal pressures for catalyst synthesis. The resulting MPy/C of 40/60 ratio heat-treated at 800oC shows the best catalytic performance in terms of ORR and follows the order: Co > Fe > Ce > W, where the catalyst composed of Co10wt% -Py30wt%/C shows the highest electroactivity for ORR in alkaline media. Using Rotating disk electrode measurements and Koutechy-Levich analysis, the overall electron transfer number in the catalyzed ORR on Co10wt% -Py30wt%/C was found to be 3.8, suggesting the catalyzed ORR is a 4-electron transfer process from O2 to H2O. | |||
TO cite this article:QIAO Jinli,DING Lei,XU Li, et al. Electrochemical reduction of oxygen on nano-structured M (M = Fe, Co, Ce, W)Py/C in alkaline electrolyte[J]. |
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