1、个人简介
曲佳欢,博士,讲师,2013年6月毕业于华南理工大学,获学士学位。2021年10月毕业于比利时鲁汶大学生物科学工程专业,获博士学位。2022年7月入职暨南大学药学院药物分析研究中心。迄今以第一作者在Biosensors and Bioelectronics,ACS Sensors,Analytica Chimica Acta等国际权威学术期刊发表SCI论文11篇,授权国家发明专利3项。
2、讲授课程
《仪器分析》
3、研究方向
(1)光纤SPR生物传感器
(2)生物药物与临床诊断分析
4、代表性论文和专著
1.Qu, J.H.1, Ordutowski, H.1, Van Tricht, C., Verbruggen, R., Barcenas Gallardo, A., Bulcaen, M., Ciwinska, M., Gutierrez Cisneros, C., Devriese, C., Guluzade, S., Janssens, X., Kornblum, S., Lu, Y., Marolt, N., Nanjappan, C., Rutten, E., Vanhauwaert, E., Geukens, N., Thomas, D., Dal Dosso, F., Safdar, S., Spasic, D., Lammertyn, J.* (2022). Point-of-care therapeutic drug monitoring of adalimumab by integrating a FO-SPR biosensor in a self-powered microfluidic cartridge. Biosensors and Bioelectronics, 206, 114125. (IF=10.62)
2. Qu, J.H., Leirs, K., Maes, W., Imbrechts, M., Callewaert, N., Lagrou, K., Geukens, N., Lammertyn, J. and Spasic, D. (2022). Innovative FO-SPR Label-free Strategy for Detecting Anti-RBD Antibodies in COVID-19 Patient Serum and Whole Blood. ACS sensors, 7(2), 477–487. (IF=8.57)
3. Qu, J.H., Peeters, B., Delport, F., Vanhoorelbeke, K., Lammertyn, J.* and Spasic, D. (2021) Gold nanoparticle enhanced multiplexed biosensing on a fiber optic surface plasmon resonance probe. Biosensors and Bioelectronics, 192, 113549. (IF=10.62)
4. Qu, J.H., Horta, S., Delport, F., Sillen, M., Geukens, N., Sun, D.-W., Vanhoorelbeke, K., Declerck, P., Lammertyn, J.* and Spasic, D. (2020). Expanding a portfolio of (FO-) SPR surface chemistries with the Co (III)-NTA oriented immobilization of His6-tagged bioreceptors for applications in complex matrices. ACS sensors, 5(4), 960-969. (IF=8.57)
5. Qu, J.H.1, Dillen, A.1, Saeys, W., Lammertyn, J.*, & Spasic, D. (2020). Advancements in SPR biosensing technology: An overview of recent trends in smart layers design, multiplexing concepts, continuous monitoring and in vivo sensing. Analytica Chimica Acta, 1104, 10-27. (IF=6.56)
6. Qu, J.H., Leirs, K., Escudero, R., Strmšek, Z., Jerala, R., Spasic, D., & Lammertyn, J.* (2021) Novel regeneration approach for creating reusable FO-SPR probes with NTA surface chemistry. Nanomaterials, 2021, 11, 186. (IF=5.08)
5、联系方式