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科研方向：材料化學、納米材料與材料物理
1) 納米材料的合成、性能與（光、電、生物）器件
2) 納米材料的原位操作與在線物理性能
3) 透射電子顯微學

社會兼職：
Angew. Chem., J. Am. Chem. Soc., Adv. Mater., Adv. Funct. Mater.,Small, Chem.-Eur. J., Chem. Mater., Chem. Commun., Appl. Phys. Lett.等國際著名刊物特約審稿人和仲裁審稿人；美國材料學會、美國電鏡學會、美國電化學學會、日本電鏡學會會員。
榮譽獲獎:
2008年 教育部“新世紀優(yōu)秀人才支持計劃”; 2008年 上海市“曙光學者”; 2009年 上海市“浦江人才計劃”; 2004年 日本國家材料科學研究所，國際青年科學家中心（ICYS），Independent Research Fellow; 2002年 日本科學振興學會（JSPS）博士后獎學金。

個人簡歷:
1997.8-2000.6: 中國科學技術(shù)大學，無機化學專業(yè)，理學博士學位
2000.9-2002.3: 香港城市大學，高級研究助理 (Senior Research Associate)
2002.3-2004.3: 日本國家材料科學研究所，日本學術(shù)振興會 （JSPS） 博士后
2004.3-2004.8: 日本國家材料科學研究所，特別研究員
2004.9-2008.1: 日本國家材料科學研究所，國際青年科學家中心（ICYS）
Independent Research Fellow（1500萬日元自主研究經(jīng)費）
2006.5-2006.6: 香港中文大學，楊振寧訪問教授
2006.12-2007.1: 悉尼大學，訪問教授
2008.1- 至今: 東華大學，校特聘教授

主講課程：
透射電子顯微學，納米材料的設計與器件組裝

已取得的主要研究成果：
圍繞納米光熱/光電材料的合成與原位性能研究，揭示了表面與本體光/電響應特性的基礎科學問題：開發(fā)了多種新型、高效、穩(wěn)定的納米光熱材料，可以有效地殺死腫瘤細胞；發(fā)現(xiàn)了金屬電極材料熔化流進CNT內(nèi)的現(xiàn)象，揭示了其熱/動力學行為；構(gòu)建了目前最高探測溫度（553K）的高靈敏度納米深紫外光探測器；實現(xiàn)了探測器對多波段光譜的選擇性探測，拓展了納米光電探測器的應用領域。發(fā)表通訊作者或第一作者SCI論文150余篇，其中Adv. Mater. 15篇、Angew. Chem. 3篇、JACS 2篇、Sci. Rep.2篇，Prog. Mater. Sci. 1篇和Nano Lett. 2篇等；他引4100余次，H因子38，入選2014年中國高被引學者榜單；授權(quán)發(fā)明專利17項。

主要論文：
2015年 1. An, L.; Xu, K.; Li, W.; Liu, Q.; Li, B.; Zou, R.; Chen, Z.; Hu, J., Exceptional pseudocapacitive properties of hierarchical NiO ultrafine nanowires grown on mesoporous NiO nanosheets. Journal of Materials Chemistry A 2014, 2 (32), 12799-12804.
2. Cao, Y.; Li, W.; Xu, K.; Zhang, Y.; Ji, T.; Zou, R.; Yang, J.; Qin, Z.; Hu, J., MnMoO4 center dot 4H(2)O nanoplates grown on a Ni foam substrate for excellent electrochemical properties. Journal of Materials Chemistry A 2014, 2 (48), 20723-20728.
3. Jiang, F.; Li, W.; Zou, R.; Liu, Q.; Xu, K.; An, L.; Hu, J., MoO3/PANI coaxial heterostructure nanobelts by in situ polymerization for high performance supercapacitors. Nano Energy 2014, 7, 72-79.
4. Li, B.; Ye, K.; Zhang, Y.; Qin, J.; Zou, R.; Xu, K.; Huang, X.; Xiao, Z.; Zhang, W.; Lu, X.; Hu, J., Photothermal Theragnosis Synergistic Therapy Based on Bimetal Sulphide Nanocrystals Rather Than Nanocomposites. Advanced Materials 2015, 27 (8), 1339.
5. Li, B.; Zhang, Y.; Zou, R.; Wang, Q.; Zhang, B.; An, L.; Yin, F.; Hua, Y.; Hu, J., Self-assembled WO3-x hierarchical nanostructures for photothermal therapy with a 915 nm laser rather than the common 980 nm laser. Dalton Transactions 2014, 43 (16), 6244-6250.
6. Li, W.; Xu, K.; Li, B.; Sun, J.; Jiang, F.; Yu, Z.; Zou, R.; Chen, Z.; Hu, J., MnO2 Nanoflower Arrays with High Rate Capability for Flexible Supercapacitors. Chemelectrochem 2014, 1 (6), 1003-1008.
7. Liu, Q.; Zhang, Z.; Li, W.; Xu, K.; Zou, R.; Hu, J., Ethanol gas sensor based on a self-supporting hierarchical SnO2 nanorods array. Crystengcomm 2015, 17 (8), 1800-1804.
8. Liu, Q.; Zou, R.; Bando, Y.; Golberg, D.; Hu, J., Nanowires sheathed inside nanotubes: Manipulation, properties and applications. Progress in Materials Science 2015, 70, 1-49.
9. Liu, X.; Fu, F.; Xu, K.; Zou, R.; Yang, J.; Wang, Q.; Liu, Q.; Xiao, Z.; Hu, J., Folic acid-conjugated hollow mesoporous silica/CuS nanocomposites as a difunctional nanoplatform for targeted chemo-photothermal therapy of cancer cells. Journal of Materials Chemistry B 2014, 2 (33), 5358-5367.
10. Liu, X.; Li, B.; Fu, F.; Xu, K.; Zou, R.; Wang, Q.; Zhang, B.; Chen, Z.; Hu, J., Facile synthesis of biocompatible cysteine-coated CuS nanoparticles with high photothermal conversion efficiency for cancer therapy. Dalton Transactions 2014, 43 (30), 11709-11715.
11. Wang, H.; Zhang, L.; Chen, Z.; Hu, J.; Li, S.; Wang, Z.; Liu, J.; Wang, X., Semiconductor heterojunction photocatalysts: design, construction, and photocatalytic performances. Chemical Society Reviews 2014, 43 (15), 5234-5244.
12. Xu, K.; Huang, X.; Liu, Q.; Zou, R.; Li, W.; Liu, X.; Li, S.; Yang, J.; Hu, J., Understanding the effect of potypyrrole and poly(3,4-ethylenedioxythiophene) on enhancing the supercapacitor performance of NiCo2O4 electrodes. Journal of Materials Chemistry A 2014, 2 (39), 16731-16739.
13. Xu, K.; Zou, R.; Li, W.; Liu, Q.; Liu, X.; An, L.; Hu, J., Design and synthesis of 3D interconnected mesoporous NiCo2O4@CoxNi1-x(OH)(2) core-shell nanosheet arrays with large areal capacitance and high rate performance for supercapacitors. Journal of Materials Chemistry A 2014, 2 (26), 10090-10097.
14. Zhang, Y.; Li, B.; Cao, Y.; Qin, J.; Peng, Z.; Xiao, Z.; Huang, X.; Zou, R.; Hu, J., Na0.3WO3 nanorods: a multifunctional agent for in vivo dual-model imaging and photothermal therapy of cancer cells. Dalton Transactions 2015, 44 (6), 2771-2779.
15. Zou, R.; Yuen, M. F.; Zhang, Z.; Hu, J.; Zhang, W., Three-dimensional networked NiCo2O4/MnO2 branched nanowire heterostructure arrays on nickel foam with enhanced supercapacitor performance. Journal of Materials Chemistry A 2015, 3 (4), 1717-1723.
16. Zou, R.; Zhang, Z.; Liu, Q.; Hu, J.; Sang, L.; Liao, M.; Zhang, W., 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.
17. Zou, R.; Zhang, Z.; Yuen, M. F.; Hu, J.; Lee, C.-S.; Zhang, W., Dendritic Heterojunction Nanowire Arrays for High-Performance Supercapacitors. Scientific Reports 2015, 5.
2014年
1）Li, B.; Wang, Q.; Zou, R.; Liu, X.; Xu, K.; Li, W.; Hu, J., Cu7.2S4 nanocrystals: a novel photothermal agent with a 56.7% photothermal conversion efficiency for photothermal therapy of cancer cells. Nanoscale 2014, 6 (6), 3274-3282.
2）Li, B.; Zhang, Y.; Zou, R.; Wang, Q.; Zhang, B.; An, L.; Yin, F.; Hua, Y.; Hu, J., Self-assembled WO3-x hierarchical nanostructures for photothermal therapy with a 915 nm laser rather than the common 980 nm laser. Dalton Transactions 2014, 43 (16), 6244-6250.
3）Li, G.; Li, W.; Xu, K.; Zou, R.; Chen, Z.; Hu, J., Sponge-like NiCo2O4/MnO2 ultrathin nanoflakes for supercapacitor with high-rate performance and ultra-long cycle life. Journal of Materials Chemistry A 2014, 2 (21), 7738-7741.
4）Li, W.; Xu, K.; An, L.; Jiang, F.; Zhou, X.; Yang, J.; Chen, Z.; Zou, R.; Hu, J., Effect of temperature on the performance of ultrafine MnO2 nanobelt supercapacitors. Journal of Materials Chemistry A 2014, 2 (5), 1443-1447.
5）Li, W.; Xu, K.; Song, G.; Zhou, X.; Zou, R.; Yang, J.; Chen, Z.; Hu, J., Facile synthesis of porous MnCo2O4.5 hierarchical architectures for high- rate supercapacitors. Crystengcomm 2014, 16 (12), 2335-2339.
6）Liu, X.; Wang, Q.; Li, C.; Zou, R.; Li, B.; Song, G.; Xu, K.; Zheng, Y.; Hu, J., Cu2-xSe@mSiO(2)-PEG core-shell nanoparticles: a low-toxic and efficient difunctional nanoplatform for chemo-photothermal therapy under near infrared light radiation with a safe power density. Nanoscale 2014, 6 (8), 4361-4370.
7）Shen, J.; Song, G.; An, M.; Li, X.; Wu, N.; Ruan, K.; Hu, J.; Hu, R., The use of hollow mesoporous silica nanospheres to encapsulate bortezomib and improve efficacy for non-small cell lung cancer therapy. Biomaterials 2014, 35 (1), 316-326.
8）Song, G.; Shen, J.; Jiang, F.; Hu, R.; Li, W.; An, L.; Zou, R.; Chen, Z.; Qin, Z.; Hu, J., Hydrophilic Molybdenum Oxide Nanomaterials with Controlled Morphology and Strong Plasmonic Absorption for Photothermal Ablation of Cancer Cells. Acs Applied Materials & Interfaces 2014, 6 (6), 3915-3922.
9）Sun, J.; Li, W.; Zhang, B.; Li, G.; Jiang, L.; Chen, Z.; Zou, R.; Hu, J., 3D core/shell hierarchies of MnOOH ultrathin nanosheets grown on NiO nanosheet arrays for high-performance supercapacitors. Nano Energy 2014, 4, 56-64.
10）Wang, T.; Liu, Q.; Li, G.; Xu, K.; Zou, R.; Hu, J., Hydrothermal control growth of Zn2GeO4-diethylenetriamine 3D dumbbell-like nanobundles. Crystengcomm 2014, 16 (15), 3222-3227.
11）Xu, K.; Li, W.; Liu, Q.; Li, B.; Liu, X.; An, L.; Chen, Z.; Zou, R.; Hu, J., Hierarchical mesoporous NiCo2O4@MnO2 core-shell nanowire arrays on nickel foam for aqueous asymmetric supercapacitors. Journal of Materials Chemistry A 2014, 2 (13), 4795-4802.
2009年至2013年
1）R. J. Zou, Z. Zhang, Q. Liu, K. Xu, A. Lu, J. Q. Hu*, Q. Li, Y. Bando, D. Golberg, Melting of Metallic Electrodes and Their Flowing Through a Carbon Nanotube Channel within a Device. Adv. Mater. 2013, 25 (19), 2693-2699.
2）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, 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, Adv. Funct. Mater. 2013, 23(25), 4281-4292.
3）R. J. Zou, K. Xu, T. Wang, G. He, Q. Liu, X. Liu, Z. Zhang, J. Q. Hu*, Chain-like NiCo2O4 nanowires with different exposed reactive planes for high-performance supercapacitors. J. Mater. Chem. A 2013, 1 (30), 8560-8566.
4）R. J. Zou, G. He, K. Xu, Q. Liu, Z. Zhang, J. Q. Hu*, ZnO nanorods on reduced graphene sheets with excellent field emission, gas sensor and photocatalytic properties. J. Mater. Chem. A 2013, 1 (29), 8445-8452.
5）K. B. Xu, R. Zou, W. Li, Y. Xue, G. Song, Q. Liu, X. Liu, J. Q. Hu*, Self-assembling hybrid NiO/Co3O4 ultrathin and mesoporous nanosheets into flower-like architectures for pseudocapacitance. J. Mater. Chem. A 2013, 1 (32), 9107-9113.
6）Q. W. Tian, J. Q. Hu*, Y. Zhu, R. Zou, Z. Chen, S. Yang, R. Li, Q. Su, Y. Han, X. Liu, Sub-10 nm Fe3O4@Cu2-xS Core-Shell Nanoparticles for Dual-Modal Imaging and Photothermal Therapy. J. Amer. Chem, Soc. 2013, 135 (23), 8571-8577.
7）L. Sang, J. Q. Hu, R. Zou, Y. Koide, M. Liao, Arbitrary Multicolor Photodetection by Hetero-integrated Semiconductor Nanostructures. Sci. rep. 2013, 3, 2368.
8）W. Y. Li, G. Li, J. Sun, R. Zou, K. Xu, Y. Sun, Z. Chen, J. Yang, J. Q. Hu*, Hierarchical heterostructures of MnO2 nanosheets or nanorods grown on Au-coated Co3O4 porous nanowalls for high-performance pseudocapacitance. Nanoscale 2013, 5 (7), 2901-2908.
9）L. Jiang, R. Zou, W. Li, J. Sun, X. Hu, Y. Xue, G. He, J. Q. Hu*, Ni(OH)(2)/CoO/reduced graphene oxide composites with excellent electrochemical properties. J. Mater. Chem. A 2013, 1 (3), 478-481.
10）Z. G. Chen, Q. Wang, H. Wang, L. Zhang, G. Song, L. Song, J. Q. Hu*, H. Wang, J. Liu, M. Zhu, D. Zhao, Ultrathin PEGylated W18O49 Nanowires as a New 980 nm-Laser-Driven Photothermal Agent for Efficient Ablation of Cancer Cells In Vivo. Adv. Mater. 2013, 25 (14), 2095-2100.
11）R. J. Zou, Z. Zhang, L. Jiang, K. Xu, Q. Tian, S. Xue, J. Q. Hu*, Y. Bando, D. Golberg, Heterostructures of vertical, aligned and dense SnO2 nanorods on graphene sheets: in situ TEM measured mechanical, electrical and field emission properties. J. Mater. Chem. 2012, 22 (36), 19196-19201.
12）L. Zhang, Q. Tian, W. Xu, X. Kuang, J. Q. Hu*, M. Zhu, J. Liu, Z. Chen, Construction of 980 nm laser-driven dye-sensitized photovoltaic cell with excellent performance for powering nanobiodevices implanted under the skin. J. Mater. Chem. 2012, 22 (35), 18156-18163.
13）G. S. Song, C. Li, J. Q. Hu*, R. Zou, K. Xu, L. Han, Q. Wang, J. Yang, Z. Chen, Z. Qin, K. Ruan, R. Hu, A simple transformation from silica core-shell-shell to yolk-shell nanostructures: a useful platform for effective cell imaging and drug delivery. J. Mater. Chem. 2012, 22 (33), 17011-17018.
14）W. Y. Li, Q. Liu, Y. Sun, J. Sun, R. Zou, G. Li, X.Hu, G. Song, G. Ma, J. Yang, Z. Chen, J. Q. Hu*, MnO2 ultralong nanowires with better electrical conductivity and enhanced supercapacitor performances. J. Mater. Chem. 2012, 22 (30), 14864-14867.
15) H. H. Chen, R. J. Zou, N. Wang, H. H. Chen, Z. Y. Zhang, Y. G. Sun, L. Yu, Q. W. Tian, Z. G. Chen, J. Q. Hu*, “Morphology-selective synthesis and wettability properties of well-aligned Cu2-xSe nanostructures on a copper substrate”, J. Mater. Chem. 2011, 21, 3053-3059.
16) H. H. Chen, R. J. Zou, H. H. Chen, N. Wang, Y. G. Sun, Q. W. Tian, J. H. Wu, Z. G. Chen, J. Q. Hu*, “Lightly doped single crystalline porous Si nanowires with improved optical and electrical properties”, J. Mater. Chem. 2011, 21, 801-805.
17)Z. G. Chen*, L. S. Zhang, Y. G. Sun, J. Q. Hu*, D. Y. Wang*, "980 nm Laser Driven Photovoltaic Cells Based on Rare Earth Up-converting Phosphor for Biomedical Applications", Adv. Funct. Mater.2009,3815-3820.
18)J. Q. Hu*, Z. G. Chen, Y.G. Sun, H. Jiang, N. Wang, J. Zou, "ZnO-Si Side-to-Side Biaxial Nanowire Heterostructures with Improved Luminescence", J. Mater. Chem. 2009, 7011-7015.
19)Y. G. Sun,J. Q. Hu*, Z. G. Chen, Y. Bandob, D. Golbergb, "Prospective Important Semiconducting Nanotubes: Synthesis, Properties and Applications",J. Mater. Chem. (Feature Article, Selected as a Back Cover) 2009, 7592-7605.
20)J. Q. Hu*, Z. G. Chen, H. Jiang, "Rectangular or square, tapered, and single-crystal PbTe nanotubes", J. Mater. Chem. 2009,19,3063-3068.
21)J. Q. Hu*, H. Jiang, Z. G. Chen, "Uniform, thin and continuous graphitic carbon tubular coatings on CdS nanowires", J. Mater. Chem. 2009,19,1093-1097.
22)J. Q. Hu, Y. Bandob, D. Golbergb, " Novel semiconducting nanowire heterostructures: synthesis, properties and applications",J. Mater. Chem. 2009,19,330-343 (Feature Article, Selected as a Front Cover).
23)J. Q. Hu*, Z. G. Chen, N. Wang,Y. L. Song, H. Jiang, Y.G. Sun, "Large scaled hexagonal prismatic sub-micro sized Mg crystals by a vapor–liquid–solid process", Chem. Commun. 2009, 4503 - 4505 (Our Chemical Communications article has been selected as the RSC Project Prospect. Selected as an Inside Front Cover).
24)J. Q. Hu*, Z. G. Chen, Y.G. Sun, "Rapid Fabrication of Nanocrystals through in situ Electron Beam Irradiation in a Transmission Electron Microscope", J. Phys. Chem. C 2009, 113, 5201–5205.
25)H, Jiang, J. Q. Hu*, F. Gu, W. Shao, C. Z. Li, "Hydrothermal synthesis of novel In2O3 microspheres for gas sensorsw", Chem. Commun. 2009, 3618–3620.
2000-2008年
1）J. Q. Hu*, Q. Li, J. H. Zhan, Y. Jiao, Z. W. Liu, S. P. Ringer, Y. Bando, D. Golberg, “Unconventional Ribbon-Shaped b-Ga2O3 Tubes with Mobile Sn Nanowire Fillings”, ACS Nano2008, 2, 107-112(Selected as one of homepage of website of http://www.acsnanotation.org/ and as a Spotlight article on website of www.nanowerk.com ).
2）J. Q. Hu*, Y. Bando, J. H. Zhan, C. Z. Li, D. Golberg, “Mg3N2-Ga: Nanoscale Semiconductor – Liquid Metal Heterojunctions inside Carbon Nanotubes”, Adv. Mater.2007, 19, 1342-1346.
3）J. Q. Hu*, Y. Bando, J. H. Zhan, D. Golberg, “Carbon nanotubes as nanoreactors for fabrication of single-crystalline Mg3N2 nanowires”, Nano Lett.2006, 6, 1136-1140. (Selected as a Spotlight article on website of www.nanowerk.com).
4）J. Q. Hu*, Y. Bando, J. H. Zhan, X. L. Yuan, T. Sekiguchi, C. Z. Li, D. Golberg, “Silica Fibers with Triangular Cross Sections”, Adv. Mater.2006, 18, 1852-1856 (Selected as a Spotlight article on website of www.nanowerk.com).
5）J. Q. Hu*, Y. Bando, J. H. Zhan, C. Y. Zhi, F. F. Xu, D. Golberg, “Tapered Carbon Nanotubes from Activated Carbon Powders”, Adv. Mater.2006, 18, 197-200.
6）J. Q. Hu*, Y. Bando, J. H. Zhan, X. L. Yuan, T. Sekiguchi D. Golberg, “Self-Assembly of SiO2 Nanowires and Si Microwires into Hierarchical Heterostructures on a Large-Scale”, Adv. Mater.2005, 17, 971 (Selected as Inside Front Cover of April 8, 2005 issue of Adv. Mater.).
7）J. Q. Hu*, Y. Bando, J. H. Zhan, Z. W. Liu, D. Golberg, S. P. Ringer, “Single-Crystalline Sub-Micrometer ZnSe Tubes”, Adv. Mater.2005, 17, 975 (Top 10 most read articles in Advanced Materials in April 2005).
8）J. Q. Hu*, Y. Bando, J. H. Zhan, D. Golberg, “Fabrication of Silica-Shielded Ga-ZnS Metal-Semiconductor Nanowire Heterojunctions”, Adv. Mater.2005, 17, 1964-1969 (Top 10 most read articles in Advanced Materials in August 2005).
9）J. Q. Hu**, Y. Bando, D. Golberg, “Sn-Catalyzed Thermal Evaporation Synthesis of Tetrapod-Branched ZnSe Nanorod Architectures”, Small2005, 1, 95-99(An invitation to publish in the inaugural issue). (Selected as a Most Cited Articles Published in 2005/2006 on Small )
10）J. Q. Hu*, Y. Jiang, X. M. Meng, C. S. Lee, S. T. Lee, “Temperature-Dependent Growth of Germanium- and Silicon Oxide-Based Nanostructures, Silicon Oxide Aligned Nanowire Assembles, and Silicon Oxide Microtubes”, Small2005, 1, 429-438.
11）J. Q. Hu*, Y. Bando, J. H. Zhan, D. Golberg, “A Large Growth of Wurtzite ZnS Micrometer-Sized Diskettes and Nanoribbon Arrays with Improved Luminescence”, Adv. Funct. Mater.2005, 15, 757-762.
12) J. Q. Hu*, Y. Bando, F. F. Xu, Y. B. Li, J. H. Zhan, J. Y. Xu, D. Golberg, “Growth and Field Emission Properties of Crystalline Thin-Walled Carbon Microtubes”, Adv. Mater.2004, 16, 153-156.
13) J. Q. Hu*, Y. Bando, J. H. Zhan, F. F. Xu, T. Sekiguchi, D. Golberg, “Growth of Single-Crystalline Cubic GaN Nanotubes with Rectangular Cross-Sections”, Adv. Mater.2004, 16, 1465-1468.
14) J. Q. Hu*, Y. Bando, Z. W. Liu, J. H. Zhan, D. Golberg, “Synthesis of Silicon Crystalline Tubular Structures with ZnS Nanowires as Templates”, Angew. Chem. Int. Ed.2004, 43, 63-66. 15) J. Q. Hu* Y. Bando, J. H. Zhan, D. Golberg, “Sn-Filled Single-Crystalline Wurtzite-type ZnS Nanotubes”, Angew. Chem. Int. Ed.2004, 43, 4606-4609.
16) J. Q. Hu*, Y. Bando, Z. W. Liu, J. H. Zhan, D. Golberg, “The First Template-Free Growth of Crystalline Silicon Microtubes”, Adv. Funct. Mater.2004 (Full paper), 14, 610-614.
17) J. Q. Hu*, Y. Bando, D. Golberg, Q. L. Liu, “Gallium Nitride Nanotubes by the Conversion Gallium Oxide Nanotubes”, Angew. Chem, Int. Ed.2003, 42, 3493-3497.
18) J. Q. Hu*, Y. Bando, Z. W. Liu, T. Sekiguchi, D. Golberg, J. H. Zhan, “EpitaxialHeterostructures: Side-to-Side Si-ZnS, Si-ZnSe Biaxial Nanowires, and Sandwich-likeZnS-Si-ZnS Triaxial Nanowires”, J. Am. Chem. Soc.2003, 125, 11306-11313 (Full paper).
19) J. Q. Hu*, Y. Bando, Zongwen Liu, “Synthesis of Gallium-Filled Gallium Oxide-Zinc Oxide Composite Coaxial Nanotubes”, Adv. Mater.2003,15, 1000-1003.
20) J. Q. Hu, X. M. Meng,Y. Jiang, C. S. Lee, S. T. Lee, “Fabrication of Germanium-Filled Silica Nanotubes and Aligned Silica Nanofibers”, Adv. Mater.2003, 15, 70-73.
21) J. Q. Hu*, Y. Bando, Q. L. Liu, D. Golberg, “Laser-Ablation Growth and Optical Properties of Wide and Long Single-Crystal SnO2 Ribbons”, Adv. Funct. Mater.2003, 13, 493-496 (Full paper).
22) J. Q. Hu, Q. Li, X. M. Meng,C. S. Lee, S. T. Lee, “Thermal Reduction Route to the Fabrication of Coaxial Zn/ZnO nanocables and ZnO nanotubes”, Chem. Mater.2003, 15, 305-308 (Full paper).
23) J. Q. Hu, Q. Li, X. M. Meng,C. S. Lee, S. T. Lee, “Synthesis and nanostructuring of patterned wires of alpha-GeO2 by thermal oxidation”, Adv. Mater. 2002, 14, 1396-1399.
24) J. Q. Hu, Q. Li,N. B. Wong,C. S. Lee,and S. T. Lee, “Synthesis of Uniform Hexagonal Prismatic ZnO Whiskers”, Chem. Mater.2002, 14, 1216-1219 (Full paper).
25) J. H. Zhan, Y. Bando, J. Q. Hu, L. W. Yin, X. L. Yuan, T. Sekigitchi, D. Golberg, “Hollow and polygonous microtubes of monocrystalline indium germinate”, Angew. Chem. Int. Ed.2006, 45, 228.
26) J. H. Zhan, Y. Bando, J. Q. Hu, D. Golberg, K. Kurashima, “Fabrication of ZnO nanoplate-nanorod junctions”, Small 2006, 2, 62.
27) J. H. Zhan, Y. Bando, J. Q. Hu, Z. W. Liu, D. Golberg “Fabrication of Metal-Semiconductor Junctions”, Angew. Chem. Int. Ed.2005, 44, 2140.
28) F. F. Xu,J. Q. Hu, Y. Bando, “Tubular configurations and structure-dependent anisotropic strains in GaS multi-walled sub-microtubes”, J. Am. Chem. Soc.2005, 127, 16860-16865 (Full paper).
29) J. H. Zhan, Y. Bando, J. Q. Hu, T. Sekiguchi, D. Golberg “One-Catalyst-Confined Growth of ZnS/Si Composite Nanowires”, Adv. Mater.2005, 17, 225-230.
30) J. H. Zhan, Y. Bando, J. Q. Hu, F. F. Xu, D. Golberg, “Unconventional Gallium Oxide Nanowires”, Small, 2005, 1, 883.
31) J. H. Zhan, Y. Bando, J. Q. Hu, Y. B. Li, D. Golberg, “Synthesis and field-emission properties of Ga2O-3-C nanocables”, Chem. Mater.2005, 16, 5158.

授權(quán)的專利：
[1] 胡俊青；孫建慶；趙薇薇；李文堯；李高；張冰潔，一種三維多孔氧化鎳分級結(jié)構(gòu)材料的制備方法，2014，7，中國，CN102849805B。
[2] 胡俊青；李文堯；鄒儒佳；李高；徐開兵；孫建慶；劉倩，一種多孔Co3O4納米片的制備方法，2014，7，中國，CN102874882B。
[3] 胡俊青；李博；鄒儒佳；董旭，一種鍺酸銅量子點的制備方法，2014，4，中國，CN103224250B。
[4] 胡俊青；宋國勝；王謙；周穎；匡興羽，硫化銅/介孔二氧化硅核殼納米材料及其制備方法和應用，2014，7，中國，CN102961753B。
[5] 胡俊青；田啟威；陳志鋼；唐明華；徐曉峰；鄒儒佳；孫彥剛；吳江紅；張震宇；胡向華；彭彥玲；蔣扉然，一種Cu2ZnSnS4納米晶薄膜太陽能電池的制備方法，2014，4，中國，CN102201498B。
[6] 胡俊青；薛雅芳；田啟威；徐開兵，一種核殼結(jié)構(gòu)納米材料及其制備方法，2014.01，中國，ZL201210364814.4。
[7] 胡俊青；唐明華；田啟威；陳志鋼；一種一步合成茄子狀Ag-Ag2S 納米異質(zhì)結(jié)的方法，2013.01，中國，ZL201110158840.7。
[8] 胡俊青；唐明華；陳志鋼；，基于薄銅片襯底的柔性CuInS2 太陽能電池的制備方法，2013.03，中國，ZL201110079240.1。
[9] 胡俊青；鄒儒佳；張震宇，一種采用半導體納米線作為探 針精確移動納米線的方法，2013.04，中國，ZL201010278161.9。
[10] 胡俊青；張震宇；鄒儒佳，一種自基底的SnO2納米棒陣列的制備方法，2013.05，中國，ZL201110199335.7。
[11] 胡俊青；胡向華；陳志鋼，一種Cu2ZnSnS4太陽能吸收層材料的制備方法，2013.06，中國，ZL201110184656.X。
[12] 胡俊青；余利；張震宇；鄒儒佳；宋國勝，一種雜化納米帶薄膜的制備方法，2013.08，


近幾年承擔的科研項目：
1）國家自然科學基金：“新型多功能半導體納米光熱轉(zhuǎn)換材料的研制及其在癌癥診療上的應用探索”(51472049)，85萬元，2015.01-2018.12，在研，主持。
2）教育部科學技術(shù)重大項目，313015，高效空穴摻雜半導體Cu2-xSySe1-y光熱轉(zhuǎn)換材料的可控合成、表面功能化和生物應用，2013/01-2015/12，100萬元，在研，主持。
3）國家自然科學基金面上項目，21171035，石墨烯上半導體氧化物納米線陣列的生長、性能及相關微/納米器件的研究，2012/01-2015/12，55萬元，在研，主持。
4）高等學校博士學科點專項科研基金（博導類），20110075110008，納米材料單體操縱與原位物理性能研究，2012/01-2014/12，12萬元，在研，主持。
5）2012年教育部“創(chuàng)新團隊發(fā)展計劃”，IRT1221，有機/無機雜化功能材料的設計構(gòu)筑及纖維成型（朱美芳教授主持）,子方向“雜化材料的表面與界面”，2013/01-2015/12，50萬元 (總經(jīng)費300 萬元)，在研，子方向負責人。6) 基于無機納米線異質(zhì)結(jié)的電子開關：設計、組裝及性能研究，教育部新世紀優(yōu)秀人才支持計劃(NCET-08-0761), 50萬元, 2009.01-2011.12
7) TEM下納米材料的制備、微結(jié)構(gòu)、性能及原位操縱，國家自然科學基金(50872020), 36萬元, 2009.01-2011.12
8) 納米管包覆的金屬-金屬納米線異質(zhì)結(jié)基電子開關，上海市“曙光學者”支持計劃(08SG32), 15萬元, 2009.01-2011.12
9) 納米材料單體的在線加工與原位操縱，上海市浦江人才支持計劃 (09PJ51400500), 30萬元, 2009.01-2011.12
10) 納米結(jié)構(gòu)的第三代太陽能電池：設計、組裝、性能及機理研究，上海市科委重點科技項目(10JC400100), 25萬元, 2010.10-2013.09
11) 半導體納米線異質(zhì)結(jié)：設計、制備、性能及相關器件，日本國家材料科學研究所Independent Research Fellow自主研究經(jīng)費1500.0萬日元, 2004.09-2008.01
12) 納米材料單體的在線加工與原位操縱 （上海市“浦江人才計劃”）
13) 東華大學校特聘教授基金，150萬，2008-2012


國際交流與合作：
與日本國家材料科學研究所、悉尼大學、新加坡國立大學、香港城市大學、香港中文大學、臺灣清華大學、麻省理工學院等國際著名研究機構(gòu)進行廣泛的學術(shù)交流和合作。
先后參加國際學術(shù)會議20余次，其中大會特邀報告6次（注明：* 大會報告人）
1) 胡俊青*，“Novel Nanowire Heterostructures: Design, Synthesis, and Properties”，2008第七屆中國國際納米科技（武漢）研討會，2008，10月23日-27日 （特邀報告，分會主席）。
2) J. Q. Hu*, et al. “Semiconductor – Liquid Metal Nanowire Heterojunctions: Fabrications, Properties, and Potential Applications in Nanosystem”, Nanoscale One-Dimensional Electronic and Photonic Devices at the 214th Meeting of the Electrochemical Society, Honolulu, Hawaii, October 12-17, 2008. （特邀報告）。
3) J. Q. Hu*, et al.“The Synthesis of Mg3N2 nanowires and Mg3N2-Ga Semiconductor-Metal Nanowire Heterojunctions”, The workshop of Nanoscience and Nanotechnology, 2007, October, 28-31, Beijing, China. (特邀報告)。
4) J. Q. Hu*, et al.“Novel Metal-Semiconductor Nanowire Heterojunctions”, 17th International Symposium on Fine Chemistry and Functional Polymers & IUPAC 3rd International Symposium on Novel Materials and Synthesis, 2007，October, 17-21, Shanghai, China. （特邀報告）。
5) J. Q. Hu*, et al. “Growth of Semiconductor Compound Nanotubes”, STATE-OF-THE-ART PROGRAM ON COMPOUND SEMICONDUCTORS at the 211th Meeting of The Electrochemical Society, 2007, May 6-11, Chicago, IL, USA. （特邀報告）。
6) J. Q. Hu*, et al. “Silica-Shielded Ga-ZnS Metal-Semiconductor Nanowire Heterojunctions”, Microscopy & Microanalysis 2006, 2006, July 30-August 4, Chicago, Illinois, USA.（特邀報告）。
7) J. Q. Hu*, et al. “Novel Semiconductor Nano- and Microtubes: Synthesis, Characterization and Properties”, ChinaNANAO 2005-China International Conference on Nanoscience & Technology, 2005, June 9-11, Beijing, China.
8) J. Q. Hu*, et al. “Fabrication of Novel Semiconducting Nanowire Heterostructures”, 2005 MRS Fall Meeting, 2005, November 28-December 2, Boston, USA.