a) 代表论文
2018年度
(1) Liu Y, Shu, G, Li X, et al. Human HSP70 Promoter-Based Prussian Blue Nanotheranostics for Thermo-Controlled Gene Therapy and Synergistic Photothermal Ablation[J]. Advanced Functional Materials, 2018.(IF:13.33, 一区)
(2) Chen J, Liu L, Motevalli S M, et al. Light‐Triggered Retention and Cascaded Therapy of Albumin‐Based Theranostic Nanomedicines to Alleviate Tumor Adaptive Treatment Tolerance[J]. Advanced Functional Materials, 2018.(IF: 13.33,一区)
(3) Zhao Q, Piao J, Peng W, et al. A Metal Chelator as a Plasmonic Signal-Generation Superregulator for Ultrasensitive Colorimetric Bioassays of Disease Biomarkers[J].Advanced Science, 2018.(IF:12.44, 一区)
(4) Yang W, Wu X, Dou Y, et al. A human endogenous protein exerts multi-role biomimetic chemistry in synthesis of paramagnetic gold nanostructures for tumor bimodal imaging[J]. Biomaterials, 2018, 161:256-269.(IF: 8.40,一区)
(5) Zhen B, Bai Y, Chen H, et al. Near-Infrared Light-Excited Upconverting Persistent Nanophosphors in Vivo for Imaging-Guided Cell Therapy[J]. Acs Appl Mater Interfaces, 2018.(IF:8.10, 一区)
(6) Zhao Q, Piao J, Peng W, et al. Simple and Sensitive Quantification of MicroRNAs via PS@Au Microspheres -Based DNA Probe and DSN -Assist Signal Amplification Platform[J]. Acs Appl Mater Interfaces, 2018, 10(4).(IF: 8.10,一区)
(7) Zhang B, Gao W, Piao J, et al. Effective Bioactivity Retention of Low-Concentration Antibodies on HFBI-Modified Fluorescence ICTS for Sensitive and Rapid Detection of PSA[J].Acs Appl Mater Interfaces, 2018.(IF:8.10, 一区)
(8) Zheng B, Bai Y, Chen H, et al. Near-Infrared Light-Excited Upconverting Persistent Nanophosphors in Vivo for Imaging-Guided Cell Therapy[J]. Acs Appl Mater Interfaces, 2018.(IF:8.10, 一区)
(9) Yang M, Zhang Y, Cui M, et al. A smartphone-based quantitative detection platform of mycotoxins based on multiple-color upconversion nanoparticles[J].Nanoscale, 2018.(IF: 7.23, 一区)
(10) Li X, Wu M, Wang J, et al. Ultrasmall bimodal Nanomolecules enhanced tumor angiogenesis contrast with endothelial cell targeting and molecular pharmacokinetics[J]. Nanomedicine: Nanotechnology, Biology, and Medicine, 2018.(IF:6.50, 一区)
(11) Yang W, Chang J, Zhang B, et al. Bioinspired Gd:CuS multifunctional nanoparticles for targeted in vivo MR/photoacoustic cancer imaging and photothermal therapy[J].Nanomedicine : nanotechnology, biology, and medicine , 2018.(IF:6.50, 一区)
(12) Gong X, Zhang B, Piao J, et al. High sensitive and multiple detection of Acute Myocardial Infarction Biomarkers based on a dual-readout Immunochromatography Test Strip.[J].Nanomedicine Nanotechnology Biology & Medicine, 2018.(IF: 6.50,一区)
(13) Peng W, Zhao Q, Piao J, et al. Ultra-sensitive detection of microRNA-21 based on duplex-specific nuclease-assisted target recycling and horseradish peroxidase cascading signal amplification[J]. Sensors & Actuators B Chemical, 2018.(IF: 5.40, 一区)
(14) Piao J, Zhao Q, Zhou D, et al. Enzyme-free Colorimetric Detection of MicroRNA-21 Using Metal Chelator as Label for Signal Generation and Amplification, 2018. (IF:5.12, 一区)
(15) Wang L, Zhou Y, Wu M, et al. Functional nanocarrier for drug and gene delivery via local administration in mucosal tissues. Nanomedicine,2018. (IF:4.73)
2017年度
(1) Zheng B, Wang H, Pan H, et al. Near-Infrared Light Triggered Upconversion Optogenetic Nanosystem for Cancer Therapy[J]. Acs Nano, 2017.(IF:13.94,一区)
(2) Jian Zhang,Qian Zhao, Yudong Wu, Bo Zhang, Weipan Peng, Jiafang Piao, Yurui Zhou, Weichen Gao, Xiaoqun Gong,Jin Chang. The construction of a novel nucleic acids detection microplatform based on the NSET for one-step detecting TK1-DNA and microRNA-21. Biosensors and Bioelectronics. 2017.12.15, 97: 26-33. (IF:8.13,一区)
(3) Yudong Wu , Weisheng Guo, Weipan Peng, et al. Enhanced Fluorescence ELISA Based on HAT Triggering Fluorescence “Turn-on” with Enzyme–Antibody Dual Labeled AuNP Probes for Ultrasensitive Detection of AFP and HBsAg[J]. Acs Applied Materials & Interfaces, 2017, 9(11):9369. (IF: 8.10,一区)
(4) Yan Dou, Xue Li, Yang Weitao, et al. PB@Au Core–Satellite Multifunctional Nanotheranostics for Magnetic Resonance and Computed Tomography Imaging in Vivo and Synergetic Photothermal and Radiosensitive Therapy[J]. Acs Applied Materials & Interfaces, 2017, 9(2):1263.(IF: 8.10,一区)
(5) Zhang B, Ma W, Li F, et al. Fluorescence quenching-based signal amplification on immunochromatography test strips for dual-mode sensing of two biomarkers of breast cancer.[J]. Nanoscale, 2017.(IF:7.23,一区)
(6) Lei Fang, Lingwei Wang , Yingyi Yao, et al. Micro- and Nano- carrier systems: The non-invasive and painless local administration strategies for disease therapy in mucosal tissues.[J]. Nanomedicine Nanotechnology Biology & Medicine, 2016, 13(1):153. (IF: 6.50,一区)
(7) Jin Yang, Xiaoqun Gong, Lei Fang, Qi Fan, Lei Cai, Xiaodi Qiu, Bo Zhang, Jin Chang, Yi Lu.Potential of CeCl3@mSiO2 Nanoparticles in Alleviating Diabetic Cataract Development and Progression Nanomedicine Nanotechnology Biology & Medicine, 2017, 13(3):1147-1151. SCI(IF:6.50,一区)
(8) Weitao Yang, Weisheng Guo, Jin Chang and Bingbo Zhang. Protein/peptide-templated biomimetic synthesis of inorganic nanoparticles for biomedical applications. Journal Of Materials Chemistry B. 2017,5(3):401-417. (IF: 4.78,一区)
(9) Zhao F, Li X, Li J, et al. Activatable ultrasmall gold nanorods for “off–on” fluorescence imaging-guided photothermal therapy[J]. Journal of Materials Chemistry B, 2017, 5(11): 2145-2151.(IF: 4.78,一区)
(10) Xiaoqun Gong, Jin Cai, Bo Zhang, et al. A review of fluorescent signal-based lateral flow immunochromatographic strips[J]. Journal of Materials Chemistry B, 2017. (IF: 4.78,一区)
2016年度
(1) Bin Zheng,Lin Su,Huizhuo Pan,Beibei Hou,Xiaoli Wu,Xiaoqun Gong,Hanjie Wang , Jin Chang.NIR-remoteselected activation gene expression in living cells by upconverting micro rods,Advanced Materials,2016.01.01,28(4):707~714. (IF:21.95,一区)
(2) Yan Dou,Yanyan Guo,Xiaodong Li,Xue Li,Sheng Wang,Lin Wang,Guoxian Lv,Xuening Zhang,Hanjie Wang,Xiaoqun Gong, Jin Chang ,Size-Tuning Ionization To Optimize Gold Nanoparticlesfor Simultaneous Enhanced CTImaging and Radiotherapy,ACS nano,2016.01.01,10:2536~2548. (IF:13.94,一区)
(3) Lv, Guoxian,Guo, Weisheng ,Zhang, Wei,Zhang, Tingbin,Li,Shuyi,Chen, Shizhu,Eltahan, Ahmed Shaker,Wang, Dongliang,Wang, Yuqing,Zhang, Jinchao,Wang, Paul C., Chang, Jin ,Liang, Xing-Jie ,Near-Infrared Emission CuInS/ZnS Quantum Dots: All-in-One Theranostic Nanomedicines with Intrinsic Fluorescence/Photoacoustic Imaging for Tumor Phototherapy,ACS Nano,2016.10.01,10(10):9637~9645. (IF:13.94,一区)
(4) Yang, Weitao,Guo, Weisheng,Le, Wenjun,Lv, Guoxian,Zhang,Fuhe,Shi, Lei,Wang, Xiuli,Wang, Jun,Wang, Sheng, Chang, Jin ,Zhang, Bingbo ,Albumin-Bioinspired Gd:CuS Nanotheranostic Agent for In VivoPhotoacoustic/Magnetic Resonance Imaging-Guided Tumor-Targeted Photothermal Therapy.ACS Nano,2016.11.22,10(11):10245~10257. (IF:13.94,一区)
(5) Yao, Yingyi,Guo, Weisheng,Zhang, Jian,Wu, Yudong,Fu, Weihua,Liu,Tingting,Wu, Xiaoli,Wang, Hanjie,Gong, Xiaoqun ,Liang, Xing-jie,Chang,Jin ,Reverse Fluorescence Enhancement and Colorimetric Bimodal Signal Readout Immunochromatography Test Strip for Ultrasensitive Large-Scale Screening and Postoperative Monitoring,ACS Applied Materials &Interfaces,2016.9.7,8(35):22963~22970. (IF:8.10,一区)
(6) Zhang, Ying,Dong, Chunhong,Su, Lin,Wang, Hanjie ,Gong,Xiaoqun,Wang, Huiquan,Liu, Junqing, Chang, Jin ,Multifunctional Microspheres Encoded with Upconverting Nanocrystals and Magnetic Nanoparticles for Rapid Separation and Immunoassays,Acs Applied Materials & Interfaces,2016.1.13,8(1):745~753. (IF:8.10,一区)
(7) Zheng, Bin,Chen, Hong-bin,Zhao, Pei-qi,Pan, Hui-zhuo,Wu,Xiao-li,Gong, Xiao-qun,Wang, Han-jie , Chang, Jin ,Persistent Luminescent Nanocarrier as an Accurate Tracker in Vivo for Near Infrared-Remote Selectively Triggered Photothermal Therapy,ACS Applied Materials & Interfaces 2016.8.24,8(33):21603~21611. (IF:8.10,一区)
(8) Chunhong Dong,Zhongyun Liu,Junqing Liu,Changzhu Wu,Falko Neumann,Hanjie Wang ,Monika Schafer-Korting,Burkhard Kleuser,Jin Chang Wenzhong Li,Nan Ma,Rainer Haag,A Protein-Polymer Bioconjugate-Coated Upconversion Nanosystem forSimultaneous Tumor Cell Imaging, Photodynamic Therapy, and Chemotherapy,Advanced Healthcare Materials,2016.01.01,5(17):2214~2226. (IF:5.11 ,一区)
(9) Xiaoqun Gong,Huan Yan,Jiumin Yang,Yudong Wu,Jian Zhang,YingyiYao,Ping Liu,Huiquan Wang,Zhidong Hu, Jin Chang ,High-performance fluorescence-encoded magnetic microbeads as microfluidic protein chip supports for AFP detection,Analytica Chimica Acta,2016.10.5,939:84~92. (IF:4.95 ,一区)
(10) Wang, Sheng,Yang, Weitao,Cui, Jing,Li, Xue,Dou, Yan,Su, Lin, Chang, Jin ,Wang, Hanjie,Li, Xiaodong,Zhang, Bingbo,pH- and NIR light responsive nanocarriers for combination treatment of chemotherapy and photodynamic therapy,Biomaterials Science,2016.01.01,4(2):338~345. (IF:4.21 ,一区)
2015年度
(1) Weisheng Guo, Xiaolian Sun,Jacobson, Orit,Yan Xuefeng,Min Kyung Hyun,Srivatsan Avinash,Niu Gang,Kiesewetter Dale, Chang Jin ,Chen Xiaoyuan,Intrinsically Radioactive [64Cu]CuInS/ZnS Quantum Dots for PET and Optical Imaging: Improved Radiochemical Stability and Controllable Cerenkov Luminescence,ACS Nano,2015.01.01,9(1):488~495. (IF:13.94,一区)
(2) Chunhong Dong,Zhongyun Liu,Lei Zhang,Weisheng Guo,Xue Li,Junqing Liu,Hanjie Wang ,Jin Chang ,pHe-InducedCharge-Reversible NIR Fluorescence Nanoprobe for Tumor-Specific Imaging,ACS Applied Materials &Interfaces,2015.01.01,7(14):7566~7575. (IF:8.10,一区)
(3) Liu Zhongyun,Chen Na,Dong Chunhong,Li Wei,Guo Weisheng,Wang Hanjie,Wang Sheng,Tan Jian,Tu Yu ,Chang Jin ,Facile Construction of Near Infrared Fluorescence Nanoprobe with AmphiphilicProtein-Polymer Bioconjugate for Targeted Cell Imaging,ACS Applied Materials & Interfaces,2015.01.01,7(34):18997~19005. (IF:8.10,一区)
(4) Weitao Yang,Weisheng Guo,Xiaoqun Gong,Bingbo Zhang ,Sheng Wang,Na Chen,Wentao Yang,Yu Tu,Xiangming Fang, Jin Chang ,Facile Synthesis of Gd-Cu-In-S/ZnS Bimodal Quantum Dots with Optimized Properties for Tumor Targeted Fluorescence/MR in Vivo Imaging,ACS Applied Materials & Interfaces,2015.01.01,7(33):18759~18768. (IF:8.10,一区)
(5) Sheng Wang,Lei Zhang,Chunhong Dong,Lin Su,Hanjie Wang ,Jin Chang ,Smart pH- responsive upconversion nanoparticles for enhanced tumor cellular internalization and nearinfrared light-triggeredphotodynamic therapy,Chemical Communication,2015.01.01,51(2):406~408. (IF:6.29,一区)
(6) Zhao Liang,Yang Guang,Shi Yijie,Su Chang, Chang Jin ,Co-delivery
of Gefitinib and chloroquine by chitosan nanoparticles for overcoming the drugacquired resistance,Journal of Nanobiotechnology,2015.01.01,13(1):57. (IF:5.29 ,一区)
(7) Beibei Hou,Bin Zheng,Xiaoqun Gong,Hanjie Wang ,Sheng Wang,Zhenyu Liao,Xiaodong Li,Xuening Zhang, Jin Chang ,AUCN@mSiO2@cross-linked lipid with high steric stability as a NIR remotecontrolled-release nanocarrier for photodynamic therapy.,Journal of Materials Chemistry B,2015.01.01,3(17):3531~3540. (IF:4.78 ,一区)
(8) Wentao Yang,Weisheng Guo,Tingbin Zhang,Weitao Yang,Lin Su,Lei Fang,Hanjie Wang,Xiaoqun Gong ,Jin Chang .Synthesisof aqueousAgInS/ZnS@PEI as a self-indicating nonviral vector for plasmid DNAself-tracking delivery,Journal of Materials Chemistry B,2015.01.01,3:8518~8527. (IF:4.78,一区)
2014年度
(1) Li Xue,Li Wenbin,Yang Qiuhua,Gong Xiaoqun,Guo Weisheng,Dong Chunhong,Liu Junqing,Xuan Lixue ,Chang Jin ,Rapid and antitative Detection of Prostate Specific Antigen with a Quantum Dot Nanobeads-Based Immunochromatography Test Strip,ACS Applied Materials & Interfaces,2014.5.14,6(9):6406~6414. (IF:8.10,一区)
(2) Liu Zhongyun,Dong Chunhong,Wang Xiaomin,Wang Hanjie,Li,Wei,Tan Jian, Chang Jin ,Self-Assembled Biodegradable Protein-Polymer Vesicle as a Tumor-Targeted Nanocarrier,ACS Applied Materials &Interfaces,2014.2.26,6(4):2391~2398. (IF:8.10,一区)
(3) Wang Hanjie,Liu Zhongyun,Wang Sheng,Dong Chunhong,Gong Xiaoqun,Zhao Peiqi, Chang Jin ,MC540 and Upconverting Nanocrystal Coloaded Polymeric Liposome for Near-Infrared Light-Triggered Photodynamic Therapy and Cell Fluorescent Imaging,ACS Applied Materials &Interfaces,2014.3.12,6(5):3219~3225. (IF:8.10,一区)
(4) Song Tao,Liu Junqing,Li Wenbin,Li Yunhong,Yang Qiuhua,Gong Xiaoqun,Xuan Lixue, Chang Jin ,Self-healing Encapsulation Strategy for Preparing Highly Stable, Functionalized Quantum-Dot Barcodes,ACS Applied Materials & Interfaces,2014.2.26,6(4):2744~2751. (IF:8.10,一区)
(5) Wang Sheng,Zhang Shuangnan,Liu Junqing,Liu Zhongyun,Su Lin,Wang Hanjie, Chang Jin ,pH- and Reduction-Responsive Polymeric Lipid Vesicles for Enhanced Tumor Cellular Internalization and Triggered Drug Release,ACS Applied Materials & Interfaces,2014.01.01,6(13):10706~10713. (IF:8.10,一区)
(6) Wang Sheng,Wang Hanjie,Liu Zhongyun,Wang Liangliang,Wang Xiaomin,Su Lin,Chang Jin ,Smart pH- and reduction-dual-responsive folate-PEG-coated polymeric lipid vesicles for tumor-triggered targeted drug delivery,Nanoscale,2014.01.01,6(13):7635~7642. (IF:7.36,一区)
(7) Guo Weisheng,Yang Weitao,Wang Yu,Sun Xiaolian,Liu Zhongyun,Zhang Bingbo ,Chen Xiaoyuan ,Chang Jin,Color-tunable Gd-Zn-Cu-In-S/ZnS quantum dots for dual modality magnetic resonance and fluorescence imaging,Nano Research,2014.01.01,7(11):1581~1591. (IF:7.99,一区)
(8) Wang Sheng,Zeng Dong,Niu Jiao,Wang Hanjie,Wang Liangliang,Li Qin,Li Changyi,Song Hao,Chang Jin ,Zhang Lianyun,Development of an efficient transdermal drug delivery system with TAT-conjugated cationic polymeric lipid vesicles,Journal of Materials Chemistry B, 2014.01.01,2(7):877~884. (IF:4.78 ,一区)
2013年度
(1) Guo Weisheng,Chen Na,Tu Yu,Dong Chunhong,Zhang Bingbo,Hu Chunhong, Chang Jin ,Synthesis of Zn-Cu-In-S/ZnS Core/Shell Quantum Dots with Inhibited Blue-Shift Photoluminescence and Applications for Tumor Targeted Bioimaging,Theranostics,2013.01.01,3(2):99~108. (IF:8.54,一区)
(2) Gong Xiaoqun,Zhang Qi,Cui Ye,Zhu Shengjiang,Su Wenya,Yang Qiuhua, Chang Jin ,A facile method to prepare high-performance magnetic and fluorescent bifunctional nanocomposites and their preliminary application in biomolecule detection,Journal of Materials Chemistry B,2013.01.01,1(15):2098~2106. (IF:4.78 ,一区)
(3) Liu Junqing,Song Tao,Yang Qiuhua,Tan Jian,Huang Dinghai, Chang Jin ,Highly stable quantum dots with silica-poly(EGDMA-co-MAA) synergistic protection and the preliminary application in immunoassay,Journal of Materials Chemistry B,2013.01.01,1(8):1156~1163. (IF:4.78 ,一区)
2012年度
(1) Cui Ye,Gong Xiaoqun,Zhu Shengjiang,Li Yunhong,Su Wenya,Yang Qiuhua, Chang Jin ,An effective modified method to prepare highly luminescent, highly stable water-soluble quantum dots and its preliminary application in immunoassay,Journal of Materials Chemistry,2012.1.14,22(2):462~469. (IF:5.98 ,一区)
(2) Yang Qiuhua,Li Yunhong,Song Tao, Chang Jin ,Facile single step preparation of high-performance quantum dot barcodes,Journal of Materials Chemistry,2012.01.01,22(14):7043~7049. (IF:5.98,一区)
2011年度
(1) Zhenyu Liao,Han Jie Wang,Xiaodong Wang,Peiqi Zhao,Sheng Wang,Wenya Su, Jin Chang ,Multifunctional Nanoparticles Composed of A Poly(DL-lactide-coglycolide) Core and A Paramagnetic Liposome Shell for Simultaneous Magnetic Resonance Imaging and Targeted Therapeutics,Advanced Functional Materials,2011.01.01,21(6):1179~1186. (IF:13.33,一区)
(2) Li Yunhong,Song Tao,Liu Junqing,Zhu Shengjiang, Chang Jin ,An efficient method for preparing high-performance multifunctional polymer beads simultaneously incorporated with magnetic nanoparticles and quantum dots,Journal of Materials Chemistry,2011.01.01,21(33):12520~12528. (IF:5.98 ,一区)
(3) Song Tao,Zhang Qi,Lu Chaoliang,Gong Xiaoqun,Yang Qiuhua,Li Yunhong,Liu Junqing, Chang Jin ,Structural design and preparation of high-performance QD-encoded polymer beads for suspension arrays,Journal of Materials Chemistry,2011.01.01,21(7):2169~2177.
(IF:5.98,一区)
2010年度
(1) Wang Hanjie,Zhao Peiqi,Liang Xiaofei,Gong Xiaqun,Song Tao,Niu Ruifang, Chang Jin ,Folate-PEG coated cationic modified chitosan -Cholesterol liposomes for tumor-targeted drug delivery,Biomaterials,2010.5.01,31(14):4129~4138 . (IF:8.40,一区)
(2) Wang Hanjie,Zhao Peiqi,Su Wenya,Wang Sheng,Liao Zhenyu,Niu Ruifang, Chang Jin ,PLGA/polymeric liposome for targeted drug and gene co-delivery,Biomaterials,2010.11.01,31(33):8741~8748. (IF:8.40,一区)
(3) Wang Hanjie,Zhang Shuangnan,Liao Zhenyu,Wang Chunyuan,Liu Yang,Feng Shiqing,Jiang Xinguo, Chang Jin ,PEGlated magnetic polymeric liposome anchored with TAT for delivery of drugs across the blood-spinal cord barrier,Biomaterials,2010.9.01,31(25):6589~6596. (IF:8.40,一区)
(4) Wang Hanjie,Zhao Peiqi,Liang Xiaofei,Song Tao,Gong Xiaoqun,Niu Ruifang, Chang Jin ,Construction of a Novel Cationic PolymericLiposomes Formed From PEGylated Octadecyl-Quaternized Lysine Modified Chitosan/Cholesterol for Enhancing Storage Stability and Cellular Uptake Efficiency,Biotechnology and Bioengineering,2010.8.15,106(6):952~962. (IF:4.48 ,一区)
b) 代表性在研项目
1、病毒的实时动态示踪与感染机制研究
(国家重点研发计划纳米专项,2017-2022,2017YFA0205104,715万元)
2、双模态探针引导智能基因精准治疗系统的研究
(国家自然科学基金,2019-2022,51873150)
3、基于老年性痴呆复杂发病机制的高协同效应纳米递药系统的构建
(国家自然科学基金,2016-2019,51573128,75万元)
4、基于“上转换光遗传技术”精准可控纳米递送系统的肿瘤诊疗一体化研究
( 国家自然科学基金,81771970,2018-2021,55万)
5、帕金森相关认知障碍早期诊断和预警体系建立的研究(合作)
(天津市科技计划项目,2017-2020,16ZXMJSY00010,50万元)
6、 基于反向荧光增强和抗体定向固定技术的AMI两种标志物POCT检测研究
(国家自然科学青年金,31600800,2017-2019, 20万元)
7 、γδT细胞在小鼠急性乙肝感染模型中的功能研究
(国家自然科学青年基金,31500723,2016-2018,20万元)
8、多模态金纳米探针提高非小细胞肺癌精准诊断的研究(合作)
( 天津市自然科学基金重点项目,2016-2019,16JCZDJC35100,20万元)
9、多功能纳米金高分子脂质体对非小细胞肺癌放疗增敏研究(合作)
(天津市卫生行业重点科研攻关基金项目,2015-2017,15KG137,20万元)
10、乳腺癌早诊及转移预测用多功能纳米探针的研究(合作)
(天津市卫生行业重点科研攻关基金项目,2017-2019,16KG115,20万元)
11、急性心肌梗死两标志物POCT检测技术研究
(天津市自然科学基金青年项目,2017-2020,17JCQNJC09100,6万元)
12、基于老年性痴呆症的多靶点纳米递药系统的构建
(天津市自然科学基金青年项目,15JCQNJC03100,2015-2018,6万)
c) 代表性完成项目
1、检测肿瘤标志物纳米诊断技术的研发
( 国家863重点项目课题, 2007-2010,2007AA021808,1108万元)
2、基于纳米技术的肿瘤早诊与转移检测技术平台的建立
( 国家863课题, 2012-2015,2012AA022603,946万元)
3、新型高分子脂质体的多功能组装及对恶性脑瘤的治疗
(国家自然科学基金,2009-2011,50873076,35万元)
4、TAT介导的新型激发式肿瘤细胞内靶向药物释放体系
(国家973前研专项基金,2001-2003,2001CCC01400,30万元)
5、磁靶向纳米载体介导C3联合自体激活雪旺和骨髓间充质干细胞修复脊髓损伤的研究(合作)
(国家自然科学基金,2009-2011,81070871,30万元)
6、 EGFR-NIS-PEG-NP-131I核素纳米载体的实验研究(合作)
(国家自然科学基金,2012-2014,81171372, 26万元)
7、基于上转换发光技术的光动力治疗纳米载体系统的构建
(国家自然科学青年基金,51303126,2013-2016,25万)
8、恶性脑胶质瘤磁靶向热化疗的研究(合作)
(国家自然科学基金,2008-2010,30772245,25万元)
9、跨血脑屏障基因药物复合功能性超微载体的构建研究
(国家自然科学基金,2004-2006,50373033,22万元)
10、新型RGD肽核素纳米载体的实验研究(合作)
(国家自然科学青年基金,2014-2016,81301244,20万元)
11、高分子脂质体多功能纳米探针的基础研究
(国家自然科学基金,2014-2017,51373117,82万元)
d) 荣誉奖项
2018年,研究项目“纳米药物在若干重要疾病治疗方面的基础研究”获得“天津市自然科学一等奖”。
2018年,团队获得“天津大学活力实验室”称号。
2017年,团队获得“天津市教育体系劳动竞赛示范集体”称号。
2017年,研究项目“脊髓损伤流行病学特征及微环境理论的创立与临床应用”获得“天津市科学技术进步一等奖”。
2013年,研究项目“恶性脑胶质瘤靶向治疗新技术研究与临床应用” 获得“天津市科学技术进步一等奖”。
2012年,研究项目“胸腰段脊柱脊髓损伤的解剖特点及其修复治疗的研究” 获得“天津市科学技术进步一等奖”。
e) 学生获奖
2017年,博士生郑斌获得“天津市生物医学工程学会迈达青年论坛大赛” 一等奖。
2017年,博士生郑斌获得“天津大学优秀博士论文” 。
2016年,博士生窦妍获得“天津市生物医学工程学会迈达青年论坛大赛” 一等奖。
2014年,博士生王生获得“天津市大学生创新创业特等奖学金”(该年度天大只有1名创新特等奖学金获得者)
2014年,博士生王汉杰获得“天津市优秀博士论文” 和“天津大学优秀博士论文” 。
2013年,博士生李雪获得“全国仪器科学与生物医学工程博士生学术论坛” 最佳口头报告奖 。
2011年,常津教授指导科技作品《新型高分子脂质体药物载体的制备及其在疾病治疗中的应用》荣获 “天津大学第八届‘挑战杯’学生课外学术科技作品竞赛” 特等奖。
2011年,常津教授指导科技作品《新型高分子脂质体药物载体的制备及其在疾病治疗中的应用》荣获 “天津市第十一届‘挑战杯’大学生课外学术科技作品竞赛” 特等奖。
2010年,博士生王汉杰获得“全国宝钢优秀学生特等奖”(该年度天大只有1名特等奖获得者)。
2010年,博士生宫晓群获得“天津市生物医学工程学会迈达青年论坛大赛” 一等奖。
