联系方式
邮箱:y.sh99@163.com
办公室:食工楼B308
教育背景及工作经历
2019.12--至今 齐鲁工业大学 化学与化工学院 副教授 硕士生导师
2018.10--2019.11 齐鲁工业大学 化学与化工学院 讲师
2016.09--2018.09 中山大学 化学学院 环境化学 博士后
2011.09--2016.06 兰州大学 化学化工学院 分析化学 博士
2007.09--2011.06 山东师范大学 化学化工与材料科学学院 学士
研究领域
1. 荧光、磷光纳米材料合成方法学及生物、光电应用
2. 新型环境、食品、生物分析传感体系设计、应用
3. 纳米材料生物毒性研究
主持和参与课题
1. NSFC青年科学基金项目:基于碳量子点和扫描比色的重金属离子原位可视化分析研究(21806189,27万元,在研,主持)
2. NSFC重点项目:基于SPME及多种技术手段探究新型功能材料对环境有机污染物的吸附行为与机理(21737006,295万元,在研,参与)
3. NSFC面上项目:利用智能聚合物自组装体和纳米粒子增效的芯片电泳体系(21575054,65万元,在研,参与)
4. NSFC青年科学基金项目:一种新型的基于液滴的自动化芯片PCR系统的研究(21505062,21万元,结题,参与)
5. NSFC青年科学基金项目:微流控芯片多元免疫分析用于前列腺癌的早期诊断(21405067,25万元,结题,参与)
发表论文
25. Z.H. Li, J.R. Zhou, R.Z. Zhang, X. Wang, H. Wei, X.Y. Sun, W. Hu, L. Zhao, M.Y. Zhou*, S.H. Yang*, Minute-level synthesis of tunable carbon dots-based phosphorescence materials for information encryption and light-emitting diodes. J. Lumin. 2024, 269, 120522. (IF: 3.6)
24. H. Huang, H. Wen, X.Y. Gao, Y.J. Liu, H. Wei, Z.P. Wang, M.Y. Zhou, S.H. Yang*, J. Liu*, Hydrolysis-induced Cu2O networks and the triggered peroxidase mimic activity by Cr6+ under neutral conditions. Inorg. Chem. 2024, 63, 2987-2996. (IF: 4.6)
23. H. Wei, J. Liu*, X. Wang, Z.H. Li, L.J. Ju, B.X. Yao, J.R. Zhou, L. Zhao, M.Y. Zhou, J. Zhang, S.H. Yang*, Secondary metal doped cuprous-cyanoimidazole frameworks for triple-mode detection of dopamine. Anal. Chim. Acta. 2023, 1279, 341798. (IF: 6.2)
22. Z.J. Ding, X.Y. Gao, Y.M. Yang, H. Wei, S.H. Yang*, J. Liu*, Amorphous copper(II)-cyanoimidazole frameworks as peroxidase mimics for hydrogen sulfide assay. J. Colloid Interf. Sci. 2023, 652, 1889-1896. (IF: 9.9)
21. X. Wang, J.S. Hu, H. Wei, Z.H. Li, J. Liu, J. Zhang, S.H. Yang*, Ultra-fast solvent-free protocol remodels the large-scale synthesis of carbon dots for nucleolus-targeting and white light-emitting diodes. J. Colloid Interf. Sci. 2023, 649, 785-794. (IF: 9.9)
20. B.X. Yao, K. Zhang, X.Y. Liu, H. Wei, Z.H. Li, J.R. Zhou, G.F. Yuan, X. Wang, S.H. Yang*, J. Liu*, Versatile preparation strategy of negatively charged saccharide-based polymers for selective removal of cationic organic pollutants. Appl. Surf. Sci. 2023, 616, 156428. (IF: 7.392)
19. X. Wang1, J.S. Hu1, B.X. Yao, H. Wei, C.Y. Zhang, J.R. Zhou, J. Liu, S.H. Yang*, Bridging environmental and biological monitoring: Constructing platform for hexavalent chromium detection and cancer-cells screening based on red fluorescent carbonized polymer dots. Chem. Eng. J. 2023, 451, 138524. (IF: 16.744)
18. 胡金双, 杨 熙*, 刘舒芹, 杨升宏*, 啤酒基荧光碳点的绿色合成及其在Fe3+检测和细胞成像中的应用. 分析测试学报, 2022, 41, 1644-1651.
17. J.S. Hu, X. Wang, H. Wei, L. Zhao*, B.X. Yao, C.Y. Zhang, J.R. Zhou, J. Liu, S.H. Yang*, Solid‐phase synthesis of red fluorescent carbon dots for the dual‐mode detection of hexavalent chromium and cell imaging. Biosensors 2022, 12, 432. (IF:5.743)
16. J. Liu*, X. Wang, F.Y. Ma, X.C. Yang, Y.J. Liu, X.Y. Zhang, S.E. Guo, Z.P. Wang, S.H. Yang*, R.S. Zhao*, Atomic copper(I)-carbon nitride as a peroxidase-mimic catalyst for high selective detection of perfluorooctane sulfonate. Chem. Eng. J. 2022, 435, 134966. (IF: 16.744)
15. X. Wang, L. Zhao, J.S. Hu, H. Wei, X.Y. Liu, E.S. Li, S.H. Yang*, Rational design of novel carbon-oxygen quantum dots for ratiometrically mapping pH and reactive oxygen species scavenging. Carbon 2022, 190, 115-124. (IF:11.307)
14. K. Wang, J. Liu, X. Wang, X.Y. Liu, J.S. Hu, E.S. Li, Y.S. Zhao, R.S. Zhao*, S.H. Yang*, Ratiometric fluorescent detection system based on dual-driving catalysis of CuO nanozyme with a classical univariate calibration for the determination of ascorbic acid in serum and fruits. Microchem. J. 2022, 172, 106921. (IF:5.304)
13. S.Q. Liu, R. Wu, X. Yang, S.T. Fang, Z.M. Xiang*, S.H. Yang*, G.F. Ouyang, Water-dispersible nano-pollutionsv reshape microbial metabolism in type-specific manners: A metabolic and bacteriological investigation in Escherichia coli. Front. Environ. Sci. Eng. 2022, 16, 116. (IF: 6.048)
12. S.H. Yang*, X. Wang, E.S. Li, X.Y. Liu, J.S. Hu, J. Liu*, Water-dispersible chlorophyll-based fluorescent material derived from willow seeds for sensitive analysis of copper ions and biothiols in food and living cells. J. Photoch. Photobio. A 2022, 425, 113664. (IF:5.141)
11.K. Wang, X.Y. Wang, X.Y. Liu, E.S. Li, R.S. Zhao∗, S.H. Yang∗, Facile synthesis of dual emission carbon dots for the ratiometric fluorescent detection of 2,4,6-trinitrophenol and cell imaging. J. Mol. Struct. 2022, 1263, 133167. (IF: 3.841)
10. J. Liu*, X.Y. Zhang, B.Y. Wen, Y.P. Li, J.J. Wu, Z.P. Wang, T. Wu, R.S. Zhao*, S.H. Yang*, Pre-carbonized nitrogen-rich polytriazines for the controlled growth of silver nanoparticles: Catalysts for enhanced CO2 chemical conversion at atmospheric pressure. Catal. Sci. Technol. 2021, 11, 3119. (IF: 6.177)
9. S.H. Yang*, K. Wang, X. Wang, X.H. Sun, Organic acid participation strategy for the synthesis of highly fluorescent carbon dots and their application in dual-mode determination of copper ions. Appl. Surf. Sci. 2020, 505, 144567. (IF: 7.392)
8. X.Y. Wang, X. Wang, J. Liu, K. Wang, R.S. Zhao, S.H. Yang*, Ingenious aspartic acid-functionalized gold nanoparticles by one-pot protocol for the sensitive detection of chromium (III) ions. Microchem. J. 2020, 159, 105359. (IF:5.304)
7. S.H. Yang, X.H. Sun, Z.Y. Wang, X.Y. Wang*, G.S. Guo, Q.S. Pu*, Anomalous enhancement of fluorescence of carbon dots through lanthanum doping and potential application in intracellular imaging of ferric ion. Nano Res. 2018, 11, 1369-1378. (IF: 10.269)
6. S.H. Yang, X. Chen, S.Q. Liu, F.X. Wang, G.F. Ouyang*, Microwave-assisted solid-phase synthesis of highly fluorescent carbon nanoparticles and its application in intracellular pH sensing. Talanta 2018, 186, 80-87. (IF: 6.556)
5. S.H. Yang*, W.J. Guo, X.H. Sun, Electrostatic association complex of a polymer capped CdTe(S) quantum dot and a small molecule dye as a robust ratiometric fluorescence probe of copper ions. Dyes Pigments 2018, 158, 114-120. (IF: 5.122)
4. S.H. Yang, X.H. Sun, Z.Y. Wang, X.Y. Wang*, G.S. Guo, Q.S. Pu*, One-step facile green synthesis of a highly fluorescent molecule through a way towards carbon dots and detection of dopamine based on in-situ formation of silver nanoparticles. Sensor. Actuat. B-Chem. 2017, 253, 752-758. (IF: 9.221)
3. S.Q. Liu, L.J. Xie, Q.K. Hu, H.S. Yang, G.R. Pan, F. Zhu, S.H. Yang*, G.F. Ouyang*, A tri-metal centered metal-organic framework for solid-phase microextraction of environmental contaminants with enhanced extraction efficiency. Anal. Chim. Acta 2017, 987, 38-46. (IF: 6.911)
2. S.H. Yang*, X.H. Sun, Y. Chen, A novel fluorescence enhancement probe based on L-Cystine modified copper nanoclusters for the detection of 2,4,6-trinitrotoluene. Mater. Lett. 2017, 194, 5-8. (IF: 3.574)
1. S.H. Yang, J. Liu, Y. Chen, J.X. Guo, L. Zhao, X. Wei, X.L. Peng, Q.S. Pu*, A facile one-step photochemical strategy for preparation of polyacrylamide functionalized CdTe(S) quantum dots and their application in sensitive determination of 2,4,6-trinitrotoluene. Sensor. Actuat. B-Chem. 2015, 212, 1-9. (IF: 9.221)
发明专利
13.杨升宏;李子涵;魏华;张玉潼;孙鑫宇,一种碳点基纳米酶及其制备方法与应用(No.202311345051.3)
12.杨升宏;魏华;周家睿;王鑫,一种室温磷光材料及制备方法与其在LED器件中的应用(No.202210841289.4)
11.杨升宏;王鑫;姚博轩;魏华,多色炭化聚合物点及制备方法与在核仁靶向成像中的应用(No.202210736894.5)
10.杨升宏;王鑫;胡金双,荧光碳纳米点及制备方法与其在细胞核靶向成像中的应用(No.2021108370986)
9.崔敏;公英华;杨升宏,一种基于人血清白蛋白分子印迹聚合物的抗污染电化学生物传感器的制备方法(No.202011133391.6)
8.杨升宏;赵汝松;刘小洋;王鑫;胡金双,改性β-环糊精聚合物及制备方法与在染料吸附中的应用(No.2020114278516)
7.杨升宏;王科;王鑫;顾宗丽;于天舒;李恩首,一种双发射荧光碳纳米粒子及其合成方法和应用(No.2019111019610)
6.杨升宏;王鑫;王科,一种天门冬氨酸修饰的金纳米粒子及其制备方法和应用(No.2019104184007)
5.欧阳钢锋;刘舒芹;杨升宏,荧光氮掺杂碳量子点在选择性识别硝基苯胺类化合物中的应用及一种固相微萃取探针(No.2018102862557)
4.欧阳钢锋;杨升宏;陈晓,一种快速制备固体发光材料的方法(No.201611103715.5)
3.蒲巧生;杨升宏,一种非金属碳材料催化剂及其制备方法和应用(No.201510655987.5)
2.蒲巧生;杨升宏,吴晶;一种高分子聚合物微流控芯片的制备方法(No.201410145535.8)
1.蒲巧生;赵蕾;卞雷;杨升宏;吴晶,一种氨基化复合涂层及其制备方法和应用(No.2014107439912)
