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胡俊青

作者: 编辑:吴婷 审核人: 发布时间:2023-06-07 09:39 来源: 点击量:

个人简介

博士,开云体育app创院院长、开云体育app讲席教授/学术带头人、深圳大学博士生导师、东华大学兼职特聘教授及上海交通大学附属第九人民医院兼职教授。

2000年获得中国科学技术大学博士学位。2000-2008年先后任香港城市大学高级研究助理、日本国家物质科学研究所(NIMS)JSPS博士后、NIMS国际青年科学家中心(ICYS)PI(同时期中国大陆大约有250位青年科学家申请,入选者为4人),2008年-2018年任东华大学特聘教授,2018-至今任开云体育app(中国)官网下载创院院长、开云体育app讲席教授/学术带头人、深圳大学博士生导师、东华大学兼职特聘教授及上海交通大学附属第九人民医院兼职教授。

长期致力于纳米光热/光电材料的合成与应用研究,揭示材料表面与本体光热/光电响应特性的基础科学问题,取得了多项具有国际水平、创新性的研究成果。在国际重要学术期刊上,如Nat. Nanotechnol.、Angew. Chem. Int. Ed. (6篇)、J. Am. Chem. Soc. (3篇)、Adv. Mater. (18篇)、Adv. Energy Mater.Acc. Chem. Res.、Prog. Mater. Sci.(2篇)和 Chem. Soc. Rev.等,发表学术论文300余篇,其中通讯作者和第一作者论文250余篇。论文他引18000余次,其中被Nature,Nature Mater.,Chem. Rev.等顶级期刊正面引用1200余次,h-指数为68。14篇入选ESI “Highly Cited Papers”。2014-2021连续八年入选Elsevier公布的“中国高被引学者榜单”,2018年入选美国Clarivate公布的全球“高被引科学家名单”,2019-2020年入选斯坦福大学发布的全球前2%顶尖终身科学影响力科学家榜单。授权专利60余件,其中日本专利16件。

承担国家/省部/市级科研项目25项(包括国家高技术研究发展计划、国家自然基金面上项目、教育部科学技术重大项目、教育部新世纪优秀人才支持计划、广东省普通高校创新团队项目、深圳市科技计划基础研究学科布局项目等)。入选教育部“新世纪优秀人才支持计划”、上海市“曙光学者”、上海市“浦江人才计划”、深圳市“鹏城学者”特聘教授计划、深圳市海外高层次人才计划(B类)等;获上海市科学技术奖一等奖一项、三等奖一项。

已培养硕士35人、博士27人、博士后5名,其中,4人次获得国家“四青人才”、1人获得“上海市青少年科技创新市长奖提名奖”、2人获得上海市优秀博士生学位论文和优秀硕士生学位论文、5人获得东华大学优秀博士生学位论文和优秀硕士生学位论文、1人获得上海市优秀毕业生等奖励和荣誉。

研究方向:

(1)高性能近红外激光响应的纳米光热材料合成与生物应用

(2)半导体纳米材料单体性能与器件构筑

欢迎在材料学、生物医学工程、材料化学、纳米材料与器件、物理化学、光学、生物学、纳米医学、分子探针及生物医学成像、肿瘤诊断和治疗、生物检测与生物传感器、生物医学材料及应用、环境科学等专业的同学报考本实验室研究生,并长年招收具有上述背景的博士后研究人员和专任研究人员。

主讲课程:

(1)纳米生物医学技术(本科生)

(2)生物材料测试技术与方法(研究生)

(3)纳米生物医学与成像技术导论(研究生)

承担项目(在研):

(1)广东省普通高校创新团队项目(自然科学),新型医用纳米材料及器件与肿瘤诊疗技术

(2)国家自然科学基金委员会(面上项目),黑色素瘤光热治疗与皮肤缺损修复的生物支架可控制备和生物学响应机理研究

(3)广东省本科高校教学质量与教学改革工程建设项目,生物医学工程专业大学化学教学团队

(4)深圳湾实验室开放基金项目,肿瘤微环境响应型过渡金属硫属化合物纳米诊疗试剂的设计开发及应用研究

(5)开云体育app新引进高端人才财政补助科研启动经费,基于肿瘤微环境响应型过渡金属硫属化合物纳米诊疗试剂的设计开发及应用研究

(6)深圳市科技计划基础研究备选项目(学科布局),工业废水难降解污染物的高效处理与回用关键技术研究

(7)深圳市坪山区科技创新专项资金,创新平台新建资助纳米生物医学成像与诊断技术重点实验室

(8)中央引导地方专项基金项目,核磁成像指导下纳米诊疗技术能力提升

代表作论文:

以通讯作者和第一作者身份发表论文:(1)IF > 20学术论文26篇,包括Adv. Mater. 15篇,Prog. Mater. Sci. 2篇,Acc. Chem. Res. 1篇,Adv. Energy Mater. 1篇,Nano Today 1篇等;(2)20 > IF > 10的论文66篇,包括Angew. Chem. Int. Ed. 4篇,J. Am. Chem. Soc. 2篇,Adv. Sci. 1篇,Nano Lett. 2篇,ACS Nano 2篇,Adv. Funct. Mater. 8篇,Nano Energy 2篇,Biomaterials 2篇,Small 4篇,J. Mater. Chem. A 23篇等。论文如下:

1、X. Hu*, J. H. Wu, M. Z. Wu and J. Q. Hu*. Recent developments of infrared photodetectors with low-dimensional inorganic nanostructures. Nano Research 2022, 15(2): 805-817.

2、E. N. Ha*, S. H. Ruan, D. Y. Li, Y. M. Zhu, Y. P. Chen, J. Y. Qiu, Z. H. Chen, T. T. Xu, J. Y. Su, L. Y. Wang* and J. Q. Hu*. Surface disorder engineering in ZnCdS for cocatalyst free visible light driven hydrogen production. Nano Research 2022, 15(2): 996-1002.

3、J. X. Liu, L. Yan, S. L. He* and J. Q. Hu*. Engineering DNA quadruplexes in DNA nanostructures for biosensor construction. Nano Research 2021, 15(4): 3504-3513.

4、T. Ji*, S. Q. He, F. J. Ai, J. H. Wu, L. Yan, J. Q. Hu* and M. Y. Liao. An adjustable multi-color detector based on regulating TiO2 surface adsorption and multi-junction synergy. Nano Research 2021, 14(10): 3423-3430.

5、X. Hu*, X. Y. Li, G. Y. Li, T. Ji, F. J. Ai, J. H. Wu, E. N. Ha and J. Q. Hu*. Recent progress of methods to enhance photovoltaic effect for self-powered heterojunction photodetectors and their applications in inorganic low-dimensional structures. Advanced Functional Materials 2021, 31(24): 2011284.

6、Y. S. Chen, M. L. Gao, L. J. Zhang, E. N. Ha, X. Hu, R. J. Zou, L. Yan* and J. Q. Hu*. Tumor microenvironment responsive biodegradable Fe-doped MoOx nanowires for magnetic resonance imaging guided photothermal-enhanced chemodynamic synergistic antitumor therapy. Advanced Healthcare Materials 2021, 10(6): 2001665.

7、J. X. Liu, W. W. Li, R. S. Li, X. Z. Yin, S. L. He*, J. Q. Hu* and S. C. Ruan*. Programmable DNA framework sensors for in situ cell-surface pH analysis. Analytical Chemistry 2021, 93(36): 12170-12174.

8、Z. J. Xie, Y. P. Peng, L. Yu, C. Y. Xing, M. Qiu, J. Q. Hu* and H. Zhang*. Solar-inspired water purification based on emerging 2D materials: status and challenges. Solar RRL 2020, 4(3): 1900400.

9、C. T. Xu, R. J. Zou, Y. X. Peng, Q. Liu, S. C. Ruan* and J. Q. Hu*. In situ transmission electron microscope studies on one-dimensional nanomaterials: manipulation, properties and applications. Progress in Materials Science 2020, 113: 100674.

10、Q. Liu, R. J. Zou, Y. Bando, D. Golberg and J. Q. Hu*. Nanowires sheathed inside nanotubes: Manipulation, properties and applications. Progress in Materials Science 2015, 70: 1-49.

11、B. Li, K. C. Ye, Y. X. Zhang, J. B. Qin, R. J. Zou, K. B. Xu, X. J. Huang, Z. Y. Xiao, W. J. Zhang*, X. W. Lu and J. Q. Hu*. Photothermal theragnosis synergistic therapy based on bimetal sulphide nanocrystals rather than nanocomposites. Advanced Materials 2015, 27(8): 1339-1345.

12、Z. G. Chen*, Q. Wang, H. L. Wang, L. S. Zhang, G. S. Song, L. L. Song, J. Q. Hu*, H. Z. Wang, J. S. Liu, M. F. Zhu* and D. Y. Zhao. Ultrathin PEGylated W18O49 nanowires as a new 980 nm-laser-driven photothermal agent for efficient ablation of cancer cells in vivo. Advanced Materials 2013, 25(14): 2095-2100.

13、R. J. Zou, Z. Y. Zhang, Q. Liu, K. B. Xu, A. J. Lu, J. Q. Hu*, Q. Li, Y. Bando and D. Golberg. Melting of metallic electrodes and their flowing through a carbon nanotube channel within a device. Advanced Materials 2013, 25(19): 2693-2699.

14、Q. W. Tian, M. H. Tang, Y. G. Sun, R. J. Zou, Z. G. Chen*, M. F. Zhu, S. P. Yang, J. L. Wang, J. H. Wang and J. Q. Hu*. Hydrophilic flower-like CuS superstructures as an efficient 980 nm laser-driven photothermal agent for ablation of cancer cells. Advanced Materials 2011, 23(31): 3542-3547.

15、J. Q. Hu*, Y. Bando, J. H. Zhan, C. Z. Li and D. Golberg. Mg3N2-Ga: Nanoscale semiconductor-liquid metal heterojunctions inside graphitic carbon nanotubes. Advanced Materials 2007, 19(10): 1342-1346.

16、J. Q. Hu*, Y. Bando, J. H. Zhan, X. L. Yuan, T. Sekiguchi, C. Z. Li and D. Golberg. Silica fibers with triangular cross sections. Advanced Materials 2006, 18(14): 1852-1856.

17、J. Q. Hu*, Y. Bando, J. H. Zhan, C. Y. Zhi, F. F. Xu and D. Golberg. Tapered carbon nanotubes from activated carbon powders. Advanced Materials 2006, 18(2): 197-200.

18、J. Q. Hu*, Y. Bando, J. H. Zhan and D. Golberg. Fabrication of silica-shielded Ga-ZnS metal-semiconductor nanowire heterojunctions. Advanced Materials 2005, 17(16): 1964-1969.

19、J. Q. Hu*, Y. Bando, J. H. Zhan, Z. W. Liu, D. Golberg and S. P. Ringer. Single-crystalline, submicrometer-sized ZnSe tubes. Advanced Materials 2005, 17(8): 975-979.

20、J. Q. Hu*, Y. Bando, J. H. Zhan, X. L. Yuan, T. Sekiguchi and D. Golberg. Self-assembly of SiO2 nanowires and Si microwires into hierarchical heterostructures on a large scale. Advanced Materials 2005, 17(8): 971-975.

21、J. Q. Hu*, Y. Bando, J. H. Zhan, F. F. Xu, T. Sekiguchi and D. Golberg. Growth of single-crystalline cubic GaN nanotubes with rectangular cross-sections. Advanced Materials 2004, 16(16): 1465-1468.

22、J. Q. Hu*, Y. Bando, F. F. Xu, Y. B. Li, J. H. Zhan, J. Y. Xu and D. Golberg. Growth and field-emission properties of crystalline, thin-walled carbon microtubes. Advanced Materials 2004, 16(2): 153-156.

23、J. Q. Hu*, Y. Bando and Z. W. Liu. Synthesis of gallium-filled gallium oxide-zinc oxide composite coaxial nanotubes. Advanced Materials 2003, 15(12): 1000-1003.

24、J. Q. Hu*, X. M. Meng, Y. Jiang, C. S. Lee and S. T. Lee. Fabrication of germanium-filled silica nanotubes and aligned silica nanofibers. Advanced Materials 2003, 15(1): 70-73.

25、J. Q. Hu, Q. Li, X. M. Meng, C. S. Lee and S. T. Lee*. Synthesis and nanostructuring of patterned wires of alpha-GeO2 by thermal oxidation. Advanced Materials 2002, 14(19):1396-1399.

26、R. J. Zou, Q. Liu, G. J. He, M. F. Yuen, K. B. Xu, J. Q. Hu*, I. P. Parkin, IP, C. S. Lee* and W. J. Zhang*. Nanoparticles encapsulated in porous carbon matrix coated on carbon fibers: An ultrastable cathode for Li-Ion batteries. Advanced Energy Materials 2017, 7(2): 1601363.

27、X. J. Huang, W. L. Zhang, G. Q. Guan, G. S. Song, R. J. Zou* and J. Q. Hu*. Design and functionalization of the NIR-responsive photothermal semiconductor nanomaterials for cancer theranostics. Accounts of Chemical Research 2017, 50(10): 2528-2538.

28、L. Yu, S. C. Ruan*, X. T. Xu, R. J. Zou and J. Q. Hu*. One-dimensional nanomaterial-assembled macroscopic membranes for water treatment. Nano Today 2017, 17: 79-85.

29、X. J. Huang, G. Y. Deng, Y. Han, G. Z. Yang, R. J. Zou, Z. Y.  Zhang*, S. Y. Sun* and J. Q. Hu*. Right Cu2−xS@MnS core–shell nanoparticles as a photo/H2O2‐responsive platform for effective cancer theranostics. Advanced Science 2019, 6(20): 1901461.

30、W. Y. Li, B. J. Zhang, R. J. Lin, S. HoKimura, G. J. He*, X. Y. Zhou, J. Q. Hu* and I. P. Parkin*. A dendritic nickel cobalt sulfide nanostructure for alkaline battery electrodes. Advanced Functional Materials 2018, 28(23): 1705937.

31、T. Ji, Q. Liu, R. J. Zou, Y. G. Sun, K. B. Xu, L. W. Sang*, M. Y. Liao*, Y. Koide, L. Yu and J. Q. Hu*. An interface engineered multicolor photodetector based on n-Si(111)/TiO2 nanorod array heterojunction. Advanced Functional Materials 2016, 26(9): 1400-1410.

32、G. S. Song, Q. Wang, Y. Wang, G. Lv, C. Li, R. J. Zou, Z. G. Chen, Z. Y. Qin, K. K. Huo, R. G. Hu and J. Q. Hu*. A low-toxic multifunctional nanoplatform based on Cu9S5@mSiO2 core-shell nanocomposites: combining photothermal- and chemotherapies with infrared thermal imaging for cancer treatment. Advanced Functional Materials 2013, 23(35): 4281-4292.

33、Z. G. Chen*, L. S. Zhang, Y. G. Sun, J. Q. Hu* and D. Y. Wang*. 980-nm laser-driven photovoltaic cells based on rare-earth up-converting phosphors for biomedical applications. Advanced Functional Materials 2009, 19(23): 3815-3820.

34、J. Q. Hu*, Y. Bando, J. H. Zhan and D. Golberg. Growth of wurtzite ZnS micrometer-sized diskettes and nanoribbon arrays with improved luminescence. Advanced Functional Materials 2005, 15(5): 757-762.

35、J. Q. Hu*, Y. Bando, Z. W. Liu, J. H. Zhan and D. Golberg. The first template-free growth of crystalline silicon microtubes. Advanced Functional Materials 2004, 14(6): 610-614.

36、J. Q. Hu*, Y. Bando, Q. L. Liu and D. Golberg. Laser-ablation growth and optical properties of wide and long single-crystal SnO2 ribbons. Advanced Functional Materials 2003, 13(6): 493-496.

37、F. R. Jiang, W. Y. Li, R. J. Zou*, Q. Liu, K. B. Xu, L. An and J. Q. Hu*. MoO3/PANI coaxial heterostructure nanobelts by in situ polymerization for high performance supercapacitors. Nano Energy 2014, 7: 72-79.

38、J. Q. Sun, W. Y. Li, B. J. Zhang, G. Li, L. Jiang, Z. G. Chen, R. J. Zou and J. Q. Hu*. 3D core/shell hierarchies of MnOOH ultrathin nanosheets grown on NiO nanosheet arrays for high-performance supercapacitors. Nano Energy 2014, 4: 56-64.

39、Q. W. Tian, J. Q. Hu*, Y. H. Zhu, R. J. Zou, Z. G. Chen, S. P. Yang, R. W. Li, Q. Q. Su, Y. Han and X. G. Liu*. Sub-10 nm Fe3O4@Cu2-xS core-shell nanoparticles for dual-modal imaging and photothermal therapy. Journal of the American Chemical Society 2013, 135(23): 8571-8577.

40、J. Q. Hu*, Y. Bando, Z. W. Liu, T. Sekiguchi, D. Golberg and J. H. Zhan. Epitaxial heterostructures: Side-to-side Si-ZnS, Si-ZnSe biaxial nanowires, and sandwichlike ZnS-Si-ZnS triaxial nanowires. Journal of the American Chemical Society 2003, 125(37): 11306-11313.

41、Q. W. Tian, F. R. Jiang, R. J. Zou, Q. Liu, Z. G. Chen, M. F. Zhu, S. P. Yang, J. L. Wang, J. H. Wang and J. Q. Hu*. Hydrophilic Cu9S5 nanocrystals: a photothermal agent with a 25.7% heat conversion efficiency for photothermal ablation of cancer cells in vivo. ACS Nano 2011, 5(12): 9761-9771.

42、J. Q. Hu*, Q. Li, J. H. Zhan, Y. Jiao, Z. W. Liu, S. P. Ringer, Y. Bando and D. Golberg. Unconventional ribbon-shaped beta-Ga2O3 tubes with mobile Sn nanowire fillings. ACS Nano 2008, 2(1): 107-112.

43、Liu, R. J. Zou, J. H. Wu, K. B. Xu, A. J. Lu*, Y. Bando, D. Golberg, J. Q. Hu*. Molten Au/Ge Alloy Migration in Ge Nanowires. Nano Letters 2015, 15(5): 2809-2816.

44、J. Q. Hu*, Y. Bando, J. H. Zhan, C. Y. Zhi and D. Golberg. Carbon nanotubes as nanoreactors for fabrication of single-crystalline Mg3N2 nanowires. Nano Letters 2006, 6(6): 1136-1140.

45、G. S. Song, J. L. Hao, C. Liang, T. Liu, M. Gao, L. Cheng, J. Q. Hu* and Z. Liu*. Degradable molybdenum oxide nanosheets with rapid clearance and efficient tumor homing capabilities as a therapeutic nanoplatform. Angewandte Chemie International Edition 2016, 55(6): 2122-2126.

46、J. Q. Hu*, Y. Bando, Z. W. Liu, J. H. Zhan, D. Golberg and T. Sekiguchi. Synthesis of crystalline silicon tubular nanostructures with ZnS nanowires as removable templates. Angewandte Chemie International Edition 2004, 43(1): 63-66.

47、J. Q. Hu*, Y. Bando, J. H. Zhan and D. Golberg. Sn-filled single-crystalline wurtzite-type ZnS nanotubes. Angewandte Chemie International Edition 2004, 43(35): 4606-4609.

48、J. Q. Hu*, Y. Bando, D. Golberg and Q. L. Liu. Gallium nitride nanotubes by the conversion of gallium oxide nanotubes. Angewandte Chemie International Edition 2003, 42(30): 3493-3497.

49、Q. Liu, J. H. Zhang, S. A He, R. J. Zou*, C. T. Xu, Z. Cui, X. J. Huang, G. Q. Guan, W. L. Zhang, K. B. Xu and J. Q. Hu*. Stabilizing lithium-sulfur batteries through control of sulfur aggregation and polysulfide dissolution. Small 2018, 14(20): 1703816.

50、Q. Liu, Z. Cui, R. J. Zou*, J. H. Zhang, K. B. Xu* and J. Q. Hu*. Surface coating constraint induced anisotropic swelling of silicon in Si-Void@SiOx nanowire anode for lithium-ion batteries. Small 2017, 13(13): 1603754.

51、R. J. Zou, Z. Y. Zhang, Q. Liu, J. Q. Hu*, L. W. Sang*, M. Y. Liao* and W. J. Zhang. High detectivity solar-blind high-temperature deep-ultraviolet photodetector based on multi-layered (l00) facet-oriented beta-Ga2O3 nanobelts. Small 2014, 10(9): 1848-1856.

52、R. J. Zou, Z. Y. Zhang, Q. W. Tian, G. X. Ma, G. S. Song, Z. G. Chen and J. Q. Hu*. A mobile Sn nanowire inside a beta-Ga2O3 tube: a practical nanoscale electrically/thermally driven switch. Small 2011, 7(23): 3377-3384.

53、J. Q. Hu*, Y. Bando* and D. Golberg. Sn-catalyzed thermal evaporation synthesis of tetrapod-branched ZnSe nanorod architectures. Small 2005, 1(1): 95-99.

54、J. Q. Hu*, Y. Jiang, X. M. Meng, C. S. Lee and S. T. Lee*. Temperature-dependent growth of germanium oxide and silicon oxide based nanostructures, aligned silicon oxide nanowire assemblies, and silicon oxide microtubes. Small 2005, 1(4): 429-438.

联系方式:hujunqing@sztu.edu.cn

 

 

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