劉思宇

1. 2005.09-2009.06 吉林省長春市 吉林大學 化學學院 學士學位

2. 2009.09-2014.06 吉林省長春市 吉林大學 分析化學 博士學位 ^[1] 

1. 2014.07-2018.12 遼寧省瀋陽市 東北大學生命科學與健康學院分子醫學研究所 講師

2. 2019.01-至今 遼寧省瀋陽市 東北大學生命科學與健康學院分子醫學研究所 副教授 ^[1] 

承擔本科生《無機及分析化學》、《無機及分析化學實驗》、《創業基礎》等課程的教學工作。 ^[1] 

主要從事納米材料在生物醫學領域應用的研究。1.熒光納米探針的合成與修飾;2.環境污染物與生物標誌物的光學檢測與分析;3.腫瘤細胞的成像; 4.納米材料用於藥物的負載和控制釋放。 ^[1] 

[1] Y.L. Wang, S.Y. Lao, W.J. Ding, Z.D. Zhang, S.Y. Liu*, A novel ratiometric fluorescent probe for detection of iron ions and zinc ions based on dual-emission carbon dots. Sensors & Actuators: B. Chemical, 2019, 284, 186-192

[2] S.Y. Liu, S. Pang, A dual-model strategy for fluorometric determination of ascorbic acid

and of ascorbic acid oxidase activity by using DNA-templated gold-silver nanoclusters. Microchimica Acta,2018, 185: 426

[3]Z.H. Li, R.Y. Liu, G.F. Xing, T. Wang, S.Y. Liu*, A novel fluorometric and colorimetric sensor for iodide determination using DNA-templated gold/silver nanoclusters. Biosensors and Bioelectronics. 2017, 96, 44-48.

[4]S.Y. Liu, H. Wang, Z. Cheng, H.G. Liu, Hexametaphosphate-capped quantum dots as fluorescent probes for detection of calcium ion and fluoride. Sensors & Actuators: B. Chemical, 2016, 232, 306-312

[5] S.Y. Liu, H. Wang, Z. Cheng, H.G. Liu, Facile synthesis of near infrared fluorescent trypsin-stabilized Ag nanoclusters with tunable emission for 1,4-dihydronicotinamide adenine dinucleotide and ethanol sensing, Analytica Chimica Acta,2015, 886 , 151-156

[6] S.Y. Liu, N. Zhao, Z. Cheng, H.G. Liu. Amino-functionalized green fluorescent carbon dots as surface energy transfer biosensors for hyaluronidase. Nanoscale. 2015, 7, 6836-6842.

[7]S.Y. Liu, S. Pang , H. Huang, X.G. Su. 3-Aminophenyl boronic acid-functionalized CuInS₂quantum dots as a near-infrared fluorescence probe for the detection of dicyandiamide. Analyst.2014, 139, 5852-5857.

[8]S.Y. Liu, X.G. Su. The synthesis and application of I-III-VI type quantum dots. RSC Adv.2014, 4, 43415-43428.

[9]S.Y. Liu, S. Pang, W.D. Na, X.G. Su. Near-infrared fluorescent probe for the determination of alkaline phosphatase. Biosensors and Bioelectronics.2014, 55, 249-254.

[10] S.Y. Liu, W.D. Na, S. Pang, X.G. Su. Fluorescence detection of Pbbased on the DNA sequence functionalized CdS quantum dots. Biosensors and Bioelectronics. 2014, 58,17-21.

[11] S.Y.Liu, S. Pang, W.D. Na, X. Yan, X.G. Su. Fluorescence detection of adenosine-5′-triphosphate and alkaline phosphatase based on the generation of CdS quantum dots. Analytica Chimica Acta.2014,827,103-110.

[12] S.Y. Liu, F.P. Shi, L. Chen, X.G. Su. Dopamine functionalized CuInS₂quantum dots as a fluorescence probe for urea. Sensors and Actuators B: Chemical. 2014,191, 246-251.

[13] S.Y. Liu, F.P. Shi, Lu Chen, Xingguang Su. Albumin coated CuInS₂quantum dots as a near-infrared fluorescent probe for NADH, and their application to an assay for pyruvate. Microchimica Acta.2014, 181, 339-345.

[14] S.Y. Liu, F.P. Shi, X. J. Zhao, L. Chen, X.G. Su. 3-Aminophenyl boronicacid-functionalized CuInS₂quantum dots as a near-infrared fluorescence probe for the determination of dopamine. Biosensors and Bioelectronics.2013, 47, 379-384.

[15] S.Y. Liu, F.P. Shi, L. Chen, X.G. Su. Tyrosine-functionalized CuInS₂quantum dots as a fluorescence probe for the determination of biothiols, histidine andthreonine, Analyst. 2013, 138, 5819-5825.

[16] S.Y. Liu, X.G. Su. The synthesis and application of doped semiconductor nanocrystals. Anal. Methods. 2013, 5, 4541-4548.

[17] S.Y. Liu, J.J. Hu, H. Zhang, X.G. Su. CuInS₂quantum dots-based fluorescence turn off/on probe for detection of melamine.Talanta.2012, 101, 368-373.

[18] S.Y. Liu, J.J. Hu, X.G. Su. Detection of ascorbic acid and folic acid based on water-soluble CuInS₂quantum dots.Analyst.2012, 137, 4598-4604.

[19] S.Y. Liu, H. Zhang, Y. Qiao, X.G. Su. One-pot synthesis of ternary CuInS₂quantum dots with near-infrared fluorescence in aqueous solution. RSC Adv.2012, 2, 819-825. ^[1]