SPECTROSCOPY AND SPECTRAL ANALYSIS, 2015, 35(08): 2241-2245.ĬAO Li 1, QIAN Ya-ao 1, HUANG Yan 2, CAO Juan 2, JIA Chun-man 1, LIU Chun-ling 1, ZHANG Qi 1,2*, Lü Zheng-rong 3. On the Tributylphosphate-Based Super-Concentrated HCl System. GUO Lin 1, 2, HUANG Kun 3, GUO Ran 2, HE An-qi 2, WENG Shi-fu 2, YANG Zhan-lan 2, ZHAO Ying 4, XIA Jin-ming 5, XU Yi-zhuang 2*, KANG Ting-guo 1*,WU Jin-guang 2. Sensing of Cu 2+ Based on Fenton Reaction and Unmodified Gold Nanoparticles. XING Yun-peng 1,2, LIU Chun 2, ZHOU Xiao-hong 1*, ZHANG Li-pei 1*, SHI Han-chang 1. A Quercetin-Based Fluorescent Probe for the Recognition of Fluorid Ions. YANG Shi-long 1, 2, JIANG Wei-na 1, 2, YIN Bin 3, XU Li 2, 3, 4*, ZHAO Feng-yi 2, 5, GAO Bu-hong 4, SUN Hai-jun 4, DU Li-ting 4, TANG Ying 4, 5, CAO Fu-liang 2, 5.
#Functionalized core shell nanoparticles portable#
Quantitative Analysis of Heave Mental Ion Based on Portable NIR Spectrometer. ZHANG Yi-ting 1, WANG Cui-cui 1, FAN Meng-li 1, CAI Wen-sheng 1, SHAO Xue-guang 1,2*. Immunoassay of Estradiol by an Array Evanescent Wave Fluorescent Biosensor. SHAN Di-di 1, 3, WEN Xiao-gang 2*, LIU Lan-hua 1, ZHOU Xiao-hong 1*, HE Miao 1, SHI Han-chang 1. Study of Direct Fluorescence Quenching of Graphitic Carbon Nitride for the Detection of Iodine Ions. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2020, 40(06): 1674-1678.ĬHEN Zhu-ling, LIN Min-xiu, SONG Zhi-ping, GUO Liang-qia *, CHEN Yi-ping. Excited State Dynamics of Bilirubin Dimethyl Ester-Copper Ions Complex. YAN Shu-jun, LIU Yang-yi, HE Xiao-xiao, ZHENG Ming, CAO Xiao-dan, XU Jian-hua, CHEN Jin-quan *. Detection of Protease Deterioration Factor in Tomato by Fluorescence Sensor Array. LI Meng-yao 1, 2, WANG Shu-ya 1, XIE Yun-feng 1, LIU Yun-guo 3*, ZHAI Chen 1*. Mechanism of Isoquercitrin Inhibiting Advanced Glycation Products Formation Based on Fluorescence Spectroscopy Technique. ZHANG Lu 1, XU Liang 1, TU Zong-cai 1, 2*, ZHOU Qi-ming 1, ZHOU Wen-na 1. The Spectroscopic Characteristics of Fulvic Acid Complexed With Copper Ion and the Construction of the Mechanism of Action. XU Heng-shan 2, GONG Guan-qun 1, 2*, ZHANG Ying-jie 1, 2, YUAN Fei 2, ZHANG Yong-xia 2. Sobhani K, Fink S L, Cookson B T, et al. Key 2 core-shell nanoparticles;Fluorescence sensor;Copper ion As a result, the proposed fluorescent nanosensor was successfully applied for determination of Cu 2+ in water samples with good recovery. The sensor showed high selectivity toward Cu 2+. L -1 and a detection limit of 1.0×10 -7 mol.The sensor can be applied to the quantification of Cu 2+ ions with a linear range of 3.0×10 -7~4.8×10 -6 mol The fluorescent sensor after binding to Cu 2+ ions showed a quenching of fluorescence emission intensity. College of Forestry, Nanjing Forestry University, Nanjing 210037, ChinaĪbstract A novel fluorescent sensor based on natural quercetin and core-shell 2 nanoparticles for highly sensitive and selective detection of copper ions has been studied. College of Science, Nanjing Forestry University, Nanjing 210037, Chinaĥ. Advanced Analysis and Testing Center, Nanjing Forestry University, Nanjing 210037, ChinaĤ. Co-Innovation Center for Sustainable Forestry in Southern China, Nanjing Forestry University, Nanjing 210037, Chinaģ. College of Chemical Engineering, Nanjing Forestry University,Nanjing 210037, ChinaĢ. JIANG Wei-na 1,2, YANG Shi-long 1,3, LU Wen 4, XU Li 2,3,4*, TANG Ying 2,3,5, XUE Hua-yu 1, GAO Bu-hong 3, DU Li-ting 3, SUN Hai-jun 3, MA Meng-tao 4, XU Hai-jun 1*, CAO Fu-liang 2,5ġ. Quercetin-Functionalized Core-Shell 2 Nanoparticles for Detection of Copper Ions SPECTROSCOPY AND SPECTRAL ANALYSIS 2018, Vol. Home | About Journal | Editorial Board | Instruction | Rewarded | Indexed-in | Impect Factor | Subscriptions | Contacts Us Quercetin-Functionalized Core-Shell Nanoparticles for Detection of Copper Ions
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