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One-step and wash-free multiplexed immunoassay platform based on bioinspired photonic barcodes
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作者 Dagan Zhang Yuze Wang +3 位作者 Junqi Zhao Xueqin Li yuanyang zhou Sen Wang 《Engineered Regeneration》 2023年第3期238-244,共7页
Multiplex,rapid and accurate virus quantification plays a great value in biomedical detection.Here,a novel one step,wash-free immunoassay platform based bioinspired PhC barcodes for multiplexed virus quantification wa... Multiplex,rapid and accurate virus quantification plays a great value in biomedical detection.Here,a novel one step,wash-free immunoassay platform based bioinspired PhC barcodes for multiplexed virus quantification was explored.PhC barcodes were decorated with PDA by self-polymerization of DA,thus this nanocomposite hybridized PhC barcodes facilitated the adsorption of FITC labelled antibodies and quenched itself photolumines-cent,allowing a fast responsive composite platform.In the presence of target analyte,the FITC-labelled detection antibody was released from the surface of PDA decorated microcarrier to specifically bind to the target ana-lyte,thus recovered the photoluminescence.In addition,the PhC microcarrier was enabled to carry out various color barcode for different targets detection though tuning internal periodic structures.Based on these excellent performances of the nanocomposite barcode,this method can not only capture H1N1,H5N1,SARS-CoV-2 si-multaneously with rapid,accuracy but also accomplish multiplex quantification detection with high-sensitivity.Furthermore,our developed platform was also achieved with high-sensitivity and high-specificity through the verification of clinical samples,thus laying out a new avenue for multiplex virus detection in clinical diagnosis. 展开更多
关键词 BARCODE Photonic crystals Wash-free IMMUNOASSAY
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Seasonal and spatial distributions of euphotic zone and longterm variations in water transparency in a clear oligotrophic Lake Fuxian, China 被引量:19
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作者 Qichao zhou Yunlin Zhang +4 位作者 Kaidi Li Licheng Huang Fengle Yang yuanyang zhou Junjun Chang 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2018年第10期185-197,共13页
To assess the seasonal and spatial variations and long-term trends in water optical properties in Lake Fuxian, investigations based on field work in four seasons and a long-term analysis of data from 1980 to 2014 were... To assess the seasonal and spatial variations and long-term trends in water optical properties in Lake Fuxian, investigations based on field work in four seasons and a long-term analysis of data from 1980 to 2014 were conducted. The results show that there was no significant variation in the euphotic depth(Z(eu)) across the four seasons, and no significant correlations between Z(eu) and potential influencing factors in seasons other than summer, suggesting that the water itself may be a major factor regulating the Z(eu)in general. Nevertheless, significant differences in Z(eu) between the north region(NR) and the south region(SR) were observed in all seasonal tests except spring. This finding relates to a higher abundance of chromophoric dissolved organic matter(CDOM) in the NR due to runoff, especially in the rainy seasons(summer and autumn).CDOM and its terrigenous component had an important impact on Z(eu)in summer, with the highest precipitation, and impacts from suspended solids and non-algal particles were also found in the NR in summer. The Secchi disk depth in the lake decreased clearly over the years,with significantly negative correlations with the increasing permanganate index and air temperature, implying that organic contaminants(CDOM and/or phytoplankton) are important regulators of water transparency. We estimate that the combined effects of climate warming and changes in land use and land cover are also indirect regulating factors. These findings should be considered in the protection of Lake Fuxian, owing to the importance of light penetration in aquatic ecosystems. 展开更多
关键词 Photosynthetic active radiation Diffuse attenuation coefficient Euphotic depth Secchi disk depth Chromophoric dissolved organic MATTER Yunnan-Guizhou Plateau
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