鞠强

教授、博士，中国生物材料学会影像材料与技术分会委员

联系方式：iamqju@njtech.edu.cn（Email）

个人简历：山东安丘人，2010年毕业于中国科学院福建物质结构研究所(导师:陈学元研究员)，之后五年分别在德国波鸿鲁尔大学，加拿大多伦多大学，香港城市大学和美国埃姆斯国家实验室从事博士后研究，2015年10月入职万博体育bet 柔性电子学院，任教授，课题组长，主要从事材料科学和无机-分析化学相关的科研教学工作。

研究方向：鞠强教授的研究兴趣是响应性智能药物，主要围绕多功能纳米复合体材料展开，探索利用稀土掺杂上转换纳米材料和金属有机框架等材料进行疾病早期成像检测和无创高效治疗，内容包括针对特定疾病的复合体药物设计、材料合成、材料组装、靶向官能团、性能表征、体外实验和动物实验等。欢迎化学和材料相关背景的同学加入课题组深造，课题组与加拿大多伦多大学(分析化学方向)和德国慕尼黑工业大学(无机化学方向)有深切合作，有意向有能力的同学可联合培养。

科研项目及学术兼职：主持国家自然科学基金三项，主持江苏省科技厅项目两项。2011-2013，担任留德华人化学化工学会理事(1/11); 2018年获稀土科学技术一等奖；2018年11月至今，担任中国生物材料学会影像材料与技术分会委员(1/56)。

发表文章

The Paper After October 2015

(1) Zhang, L.; Gao, F.; Liu, S.; Ju, M.; Sun, C.; Sun, G.;Ju, Q.*; Yang, K.*; Fang, Z.* Synthesis of Lanthanide-Based Scintillator@Mof Nanocomposites for X-Ray-Induced Photodynamic Therapy.Inorg. Chem. Front.2024,11, 1607-1615.

(2) Wei, H.; Sun, T.; Liu, M.; Pang, Q.; Qian, Y.; Dou, X.; Zhang, Y.;Ju, Q.*; Fang, Z.* In Situ Insertion of Shutter Ions in Mno₂to Boost the Supercapacitive Performance of Flexible Supercapacitors.J. Mater. Chem. A2023,11, 16303-16313.

(3) Pan, X.; Ren, J.; Zeng, J.; Liu, M.; Fang, Z.;Ju, Q.*Unravelling Phase and Morphology Evolution of Naybf4 Upconversion Nanoparticles Via Modulating Reaction Parameters.Inorg. Chem. Front.2022,9, 4081-4090.

(4) Zhang, L.; Liu, M.; Fang, Z.*;Ju, Q.*Synthesis and Biomedical Application of Nanocomposites Integrating Metal-Organic Frameworks with Upconversion Nanoparticles.Coord. Chem. Rev.2022,468, 214641.

(5) Xu, W.; Zhang, Y.; Wang, J.; Xu, Y.; Bian, L.;Ju, Q.; Wang, Y.; Fang, Z. Defects Engineering Simultaneously Enhances Activity and Recyclability of Mofs in Selective Hydrogenation of Biomass.Nat. Commun.2022,13, 2068.

(6) Zhu, J.; Sun, Y.; Ding, W.; Li, P.; Pang, Q.; Dou, X.; Bian, L.;Ju, Q.; Fang, Z. Coordination Networks Constructed from a Flexible Ligand: Single-Crystal-to-Single-Crystal Transformations and Thermoresponsive and Electrochemical Performances.Crystengcomm2022,24, 5364-5371.

(7) Thapa, K. B.; Chen, B.; Bian, L.; Xu, Y.; He, J.; Huang, W.;Ju, Q.*; Fang, Z.* Single-Metallic Thermoresponsive Coordination Network as a Dual-Parametric Luminescent Thermometer.ACS Appl. Mater. Inter.2021,13, 35905-35913.

(8) Li, R.; Fang, X.; Ren, J.; Chen, B.; Yuan, X.; Pan, X.; Zhang, P.; Zhang, L.; Tu, D.; Fang, Z.; Chen, X.*;Ju, Q.*The Effect of Surface-Capping Oleic Acid on the Optical Properties of Lanthanide-Doped Nanocrystals.Nanoscale2021,13, 12494-12504.

(9) Yuan, X.; Zhang, L.; Chen, B.; Zhu, J.; Pan, X.; Fang, Z.;Ju, Q.*; Huang, W.* GdF₃Hollow Spheres: Self-Assembly and Multiple Emission Spanning the Uv to Nir Regions under 980 Nm Excitation.Inorg. Chem. Front.2020,7, 1540-1545.

(10) Ding, W.; Zhao, L.; Yuan, X.; Zhang, L.; Chen, B.;Ju, Q.*; Fang, Z.* Multicolour Barcoding in One Mof Crystal through Rationally Postsynthetic Transmetalation.J. Mater. Chem. C2020,8, 3176-3182.

(11)Ju, Q.*; Luo, S.; Chen, C.; Fang, Z.; Gao, S.; Chen, G.; Chen, X.; Gu, N.* Single-Irradiation Simultaneous Dual-Modal Bioimaging Using Nanostructure Scintillators as Single Contrast Agent.Adv. Healthc. Mater.2019,2019, 1801324.

(12) Fang, Z.; Zhao, F.; Zhang, Y.; Ding, W.; Zhang, L.; Liu, M.; Xu, W.; Thapa, K. B.; Huang, W.;Ju, Q.*Intentional Anion Incorporation to Rationally Modulate the Size, Shape and Optical Properties of Lanthanide Oxide Nanocrystals.Nanoscale2019,11, 5633-5639.

(13) Tian, Y.; Xin, C.; Fang, Z.; Fang, X.; Zhou, J.; Yu, H.; Li, L.*;Ju, Q.*Thinning Shell Thickness of Cuins₂@Zns Quantum Dots to Boost Detection Sensitivity.Anal Chim Acta2019,1047, 124-130.

(14) Xu, W.; Thapa, K. B.;Ju, Q.; Fang, Z.; Huang, W. Heterogeneous Catalysts Based on Mesoporous Metal–Organic Frameworks.Coord. Chem. Rev.2018,373, 199-232.

(15) Wang, M.; Tian, Y.; Zhao, F.; Li, R.; You, W.; Fang, Z.; Chen, X.; Huang, W.*;Ju, Q.* Alleviating the Emitter Concentration Effect on Upconversion Nanoparticles Via an Inert Shell.J. Mater. Chem. C2017,5, 1537-1543.

(16) Cao, X.; Fang, Z.; Huang, W.;Ju, Q.*The Catalytic Properties of a Copper-Based Nanoscale Coordination Polymer Fabricated by a Solvent-Etching Top-Down Route.Eur J Inorg Chem2017,2017, 4803-4807.

(17)Ju, Q.*; Noor, M. O.; Krull, U. J.* Paper-Based Biodetection Using Luminescent Nanoparticles.Analyst2016,141, 2838-2860.

The Selected Paper Before Nanjing Tech

(1)Ju, Q.; Chen, X.; Ai, F.; Peng, D.; Lin, X.; Kong, W.; Shi, P.; Zhu, G.; Wang, F. An Upconversion Nanoprobe Operating in the First Biological Window.J. Mater. Chem. B2015,3, 3548-3555(2)Ju, Q.; Uddayasankar, U.; Krull, U. Paper-Based DNA Detection Using Lanthanide-Doped Liyf₄Upconversion Nanocrystals as Bioprobe.Small2014,10, 3912-3917.

(3)Ju, Q.; Campbell, P. S.; Mudring, A. V. Interface-Assisted Ionothermal Synthesis, Phase Tuning, Surface Modification and Bioapplication of Ln³⁺-Doped NaGdF₄Nanocrystals.J. Mater. Chem. B2013,1, 179-185.

(4)Ju, Q.; Mudring, A. V. Phase and Morphology Selective Interface-Assisted Synthesis of Highly Luminescent Ln³⁺-Doped NaGdF₄Nanorods.RSC Adv2013,3, 8172-8175.

(5)Ju, Q.; Tu, D. T.; Liu, Y. S.; Zhu, H. M.; Chen, X. Y. Lanthanide-Doped Inorganic Nanocrystals as Luminescent Biolabels.Comb Chem High T Scr2012,15, 580-594.

(6)Ju, Q.; Tu, D. T.; Liu, Y. S.; Li, R. F.; Zhu, H. M.; Chen, J. C.; Chen, Z.; Huang, M. D.; Chen, X. Y. Amine-Functionalized Lanthanide-Doped KGdF₄Nanocrystals as Potential Optical/Magnetic Multimodal Bioprobes.J. Am. Chem. Soc.2012,134, 1323-1330.

(7)Ju, Q.; Liu, Y. S.; Tu, D. T.; Zhu, H. M.; Li, R. F.; Chen, X. Y. Lanthanide-Doped Multicolor GdF₃Nanocrystals for Time-Resolved Photoluminescent Biodetection.Chem. Eur. J.2011,17, 8549-8554.

(8)Ju, Q.; Luo, W. Q.; Zhu, H. M.; Lu, Y. S.; Li, R. F.; Chen, X. Y. One-Step Synthesis and Optical Properties of Water-Soluble and Amine-Functionalized Dy3+-Doped BaFCl Nanocrystals.J Nanosci Nanotechno2011,11, 9478-9483.

(9)Ju, Q; Luo, W. Q.; Liu, Y. S.; Zhu, H. M.; Li, R. F.; Chen, X. Y. Poly (Acrylic Acid)-Capped Lanthanide-Doped BaFCl Nanocrystals: Synthesis and Optical Properties.Nanoscale2010,2, 1208-1212.

(10)Ju, Q.; Liu, Y. S.; Li, R. F.; Liu, L. Q.; Luo, W. Q.; Chen, X. Y. Optical Spectroscopy of Eu³⁺-Doped BaFCl Nanocrystals.J Phys Chem C2009,113, 2309-2315