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蒋绪川

发布日期:2020年07月29日 20:03    作者:     来源:     点击:

个人信息

姓名

蒋绪川

性别

职称

教授

手机号

 

邮箱

Ism_jiangxc@ujn.edu.cn;

ccjiang999@126.com

教育背景(从大学本科起)

• 2001博士 中国科学技术大学

• 1999硕士 山东大学

• 1991学士 山东大学

工作经历(从大学毕业起)

• 2018.01-济南大学教授,智能材料与工程研究院院长

• 2015.01-澳大利亚蒙纳士大学教授(兼)

• 2013-2015澳大利亚新南威尔士大学副教授

• 2009-2013澳大利亚新南威尔士大学FutureFellow

• 2005-2009澳大利亚新南威尔士大学副研究员

• 2004-2005法国巴黎大学(VI)助理研究员

• 2002-2003美国华盛顿大学博士后研究员

• 1991-1999山东大学自然科学学报编辑

• 2019.08山东莘纳智能新材料公司董事长

• 2016-2019法尔胜集团金属线材国家工程中心副主任

主要研究方向

• 智能材料:光、热、电、磁等外界刺激响应型无机功能材料

• 界面反应控制材料:催化、传感、超浸润-超疏水仿生材料

• 化工分离与提纯:萃取分析与纯化

• 智能玻璃:隔热节能玻璃的工程化

主持和承担科研项目

1. Development and application of WO3-Mica Multifunctional Nanocomposites (ARC LP170100888, 2018-20);

2. Development of Metal-Titania Core-Shell Nanostructures for Photocatalysis (ARC DP160104456, 2016-18);

3. Development and Application of VO2-based Advanced Nanomaterials for Smart Window Coatings (ARC LP140100786, 2014-17);

4. Computational Particle Science and Technology, (IH1401000352015-20);

5. Synthesis and Fundamental Understanding of Low-Dimensional Metal Oxide Nanoparticles for Gas Sensing Application (FT0990942, 2009-13);

6. Experimental and Theoretical Studies of Vanadium Oxide Nanostructures and Their Functional Properties (ARC DP1096185, 2010-12);

7. Function-driven Synthesis and Assembly of Two-dimensional Metal Nanostructures (ARC DP0878641, 2008-10);

8. A Comprehensive Magneto-Thermophysical Property Measurement System for the Development of Advanced Materials, Energy and Biomedical Technologies (ARC LE110100183, 2011);

9. A State-of-the-art Magnetic Property Measurement Facility for the Development of Advanced Materials and Biomedical Technologies in the Sydney Basin (ARC LE120100197, 2012); 

10. 贵金属低维纳米结构的合成、组装及其分子传感性能研究(国家自然基金面上项目,50671019 2007-09);

教学情况

• 培养博士毕业15人,硕士毕业18人;

• 团队现有博士8人,硕士20人;

• 教授课程:Nanotechnology and Materials (I & II) Thermodynamics ;博士生专业英语

奖励与荣誉

• 国家高层次人才 (2016-)

• 江苏省“双创人才”(2017-)

• 江西省“双千人才” (2018-)

• 江西省宜春市政府顾问 (2018-)

• 享受特殊津贴专家 (2020-)

• 澳大利亚科学基金委Future Fellow (2009)

• 澳大利亚科学基金委 QEIIFellow(2009)

代表性论文(最多10篇)

共发表SCI论文及专著章节160余篇,他引次数超过8000次,H-index50.

X. C. Jiang; Herricks, T. and Xia, Y. Monodispersed Spherical Colloids of Titania: Synthesis, Characterization, and Crystallization.  Adv. Mater.2003, 15, 1205-1209. (cited 387)

X. C. Jiang; Mayers, B.; Herricks, T. and Xia, Y. Se@CdSeNanocables and CdSe Nanotube Can Be Directly Synthesized by Reacting Cadmium Salts with Se Nanowires. Adv. Mater.2003, 15, 1740-1743.

Mayers, B.; X. C. Jiang; Sunderland, D.; Cattle, B. and Xia, Y. Hollow Nanostructures of Platinum with Controllable Dimensions Can Be Synthesized by Templating against Selenium Nanowires and Colloids. J. Am. Chem. Soc.2003, 125, 13364-13365.

Wang, Y.; X. C. Jiang and Xia, Y. A Solution-Phase, Precursor Route to Poly-crystalline SnO2 Nanowires That Can Be Used for Gas Sensing under Ambient Conditions. J. Am. Chem. Soc.2003, 125, 16176-16177.  (Cited 1170 times)

C. Y. Chen, B.H.R. Suryanto, C. Zhao, X. C. Jiang* and A. B. Yu. Direct Hydrothermal Synthesis of Carbonaceous Silver Nanocables for Electrocatalytic Applications. Small, 2015, 11, 3557-3567 (DOI: 10.1002/smll.201401854).

S.F. Wang, M.S. Liu, L.B. Kong, Y. Long, X.C. Jiang,* A.B. Yu. Recent Progress in VO2 Smart Coatings: Strategies to Improve the Thermochromics Properties. Progress in Materials Science. 2016, 81,1-54.

M. S. Liu, B. Su, Y. V. Kaneti, Z. Chen, Y. Tang, Y. Yuan, Y. F. Gao, X. C. Jiang,* A. B. Yu and L. Jiang. Dual-Phase Transformation: Spontaneous Self-Template Surface-Patterning Strategy for Ultra-Transparent VO2 Solar Modulation Coatings. ACS Nano, 2017, 11, 407-415.(DOI 10.1021/acsnano.6b06152)

M.S. Liu, B. Su, Y. Tang, X.C. Jiang* and A.B. Yu. Recent Advances in Nanostructured Vanadium Oxides and Composites for Energy Conversion. Adv. Energy Mater. 2017, 7, 1700885 (34pages). DOI: 10.1002/aenm.201700885.

SF Wang, WR Fan, ZC Liu, AB Yu and XC Jiang*. Advances on Tungsten Oxide Based Photochromic Materials: Strategies to improve photochromic properties. J. Mater. Chem. C 2018, 6, 191-212. Accepted on Nov.23 2017 (DOI: 10.1039/C7TC04189F) (Review)

10 S Zeb, XJ Peng, GZ Yuan, X Zhao, GX Sun, Y Nie, XC Jiang,* Y Cui. Controllable synthesis of ultrathin WO3 nanotubes and nanowires with excellent gas sensing performance. Sensor Actuator B: Chemical, 2020, 305, 127435.

代表专利(最多10项)

1. Y. Xia, Y. Sun, B. Mayers, X. C. Jiang, and D. Sunderland. Metallic Nanostructures, Formation and Shape Selection. USA, No. US 10/732,910 (2003).

2. X. H. Yang, X. C. Jiangand A. B. Yu. A Facile but Efficient for Silver-Titanium Dioxide Nanocomposites with Highly Efficiency in Environmental Remediation. Chinese Patent: CN201310131545.1 (2013)

3. M.S. Liu, X.C. Jiang, and A.B. Yu. The Method for Thermochromic VO2 Thin Film Coatings, Chinese Patent, CN201410404928.6 (2014)

4. M.S. Liu, X.C. Jiang, and A.B. Yu. A Method for the Preparation of VO2 (Anatase Phase) Nanoparticles. CN201410795991.7 (2014)

5. S.F. Wang, X.C. Jiang, and A.B. Yu. A New Method for Water Harvesting with High Efficiency. CN2016105737776 (2016).

6. M.S. Liu, X.C. Jiang, and A.B. Yu. A Method for Well Dispersed Anatase Vanadium Dioxide Nanoparticles, 2017.

7. 一种二氧化钒纳米分体分散液和涂层的制备方法. 201811407165.5

8. 一种金红石相二氧化钒纳米粉体的制备方法.201811407204.1

9. 一种固相法大量制备金红石相二氧化钒纳米粉体的方法.201811407373.5

10. 一种金红石相二氧化钒超细纳米粉体的制备方法.201811407464.9

其他

· Associate Editor/Editorial Board Member of 3 journals: (1) Inter. J. of Nano Study and Technology; (2) World J. of Cancer Res.; and (3) Sensors

· International conference organizer/Session Chair

· Delivered over 30 plenary, Keynote and invited talks in national and international conferences

· OZ reader for ARC and NHMRC grants and Assessor for China NSF grants

· Examiner for PhD thesis from different countries (Aus. France, Singapore and China,)

· Referee for tens of journals (Adv. Mater., Small, ACS Nano, Chem. Mater. Nanoscale, Langmuir)

 

Contact information

Name

Xuchuan Jiang

Gender

Male

Title

Professor, Dean

Telephone

 

Email

Ism_jiangxc@ujn.edu.cn;

ccjiang999@126.com

Education

Background

2001 PhD     University of Science & Technology of China

1999 Master   Shandong University

1991 Bachelor  Shandong University

Work Experience

• 2018.01- Professor, University of Jinan, and Dean of the Institute for Smart Materials & Engineering

• 2015.01-  Professor, Monash University, Australia

• 2013-2015 Associate Professor, Monash University, Australia

• 2009-2013 ARC Future Fellow, University of New South Wales, Australia

• 2005-2009 Research Fellow, University of New South Wales, Australia

• 2004-2005 Assistant Fellow, University of Paris(VI), France

• 2002-2003 Postdoctoral Fellow, University of Washington, USA

• 1991-1999 Editor, Shand University Journal

• 2019.08   CEO, Shandong Shenna Smart Advanced Materials Ltd. Co.

Research Areas

• Smart Materials: Functional materials reflected with stimulus by light, thermal, electricity and magnetic

• Interface reactioncatalysis, gas sensors, and superhydrophilic/hydrophobic materials

• Chemical extraction and separationExtraction and purification of rare earth ions

• Smart windowssmart powders, inks and coatings

Research Projects

1. Development and application of WO3-Mica Multifunctional Nanocomposites (ARC LP170100888, 2018-20);

2. Development of Metal-Titania Core-Shell Nanostructures for Photocatalysis (ARC DP160104456, 2016-18);

3. Development and Application of VO2-based Advanced Nanomaterials for Smart Window Coatings (ARC LP140100786, 2014-17);

4. Computational Particle Science and Technology, (IH1401000352015-20);

5. Synthesis and Fundamental Understanding of Low-Dimensional Metal Oxide Nanoparticles for Gas Sensing Application (FT0990942, 2009-13);

6. Experimental and Theoretical Studies of Vanadium Oxide Nanostructures and Their Functional Properties (ARC DP1096185, 2010-12);

7. Function-driven Synthesis and Assembly of Two-dimensional Metal Nanostructures (ARC DP0878641, 2008-10);

8. A Comprehensive Magneto-Thermophysical Property Measurement System for the Development of Advanced Materials, Energy and Biomedical Technologies (ARC LE110100183, 2011);

9. A State-of-the-art Magnetic Property Measurement Facility for the Development of Advanced Materials and Biomedical Technologies in the Sydney Basin (ARC LE120100197, 2012);

10. Low-dimensional Noble Nanostructure: Synthesis, Self-assembly and Gas Sensing Properties  (ChinaNSFC 50671019 2007-09);

Teachings

• Graduated PhD 15 and Master 18

• Currently supervise PhD students 8 and Master students 20

• CoursesNanotechnology and Materials (I & II) Thermodynamics

Awards and Honours

• National state specialized Talent Expert 2016-

• Creative and Productive Talent of Jiangsu2017-

• Double Thousands Talent of Jiangxi 2018-

• Government consulate of Yichun Jiangxi 2018-

• Special allowance granted expert 2020-

• Australian ARC Future Fellow (2009)

• Australian ARC QE II Fellow 2009

Representative Publications

Total publications over 160 with citations over 8000&H-index50.

1. X. C. Jiang; Herricks, T. and Xia, Y. Monodispersed Spherical Colloids of Titania: Synthesis, Characterization, and Crystallization.  Adv. Mater.2003, 15, 1205-1209. (cited 387)

2. X. C. Jiang; Mayers, B.; Herricks, T. and Xia, Y. Se@CdSeNanocables and CdSe Nanotube Can Be Directly Synthesized by Reacting Cadmium Salts with Se Nanowires. Adv. Mater.2003, 15, 1740-1743.

3. Mayers, B.; X. C. Jiang; Sunderland, D.; Cattle, B. and Xia, Y. Hollow Nanostructures of Platinum with Controllable Dimensions Can Be Synthesized by Templating against Selenium Nanowires and Colloids. J. Am. Chem. Soc.2003, 125, 13364-13365.

4. Wang, Y.; X. C. Jiang and Xia, Y. A Solution-Phase, Precursor Route to Poly-crystalline SnO2 Nanowires That Can Be Used for Gas Sensing under Ambient Conditions. J. Am. Chem. Soc.2003, 125, 16176-16177.  (Cited 1170 times)

5. C. Y. Chen, B.H.R. Suryanto, C. Zhao, X. C. Jiang* and A. B. Yu. Direct Hydrothermal Synthesis of Carbonaceous Silver Nanocables for Electrocatalytic Applications. Small, 2015, 11, 3557-3567 (DOI: 10.1002/smll.201401854).

6. S.F. Wang, M.S. Liu, L.B. Kong, Y. Long, X.C. Jiang, * A.B. Yu. Recent Progress in VO2 Smart Coatings: Strategies to Improve the Thermochromics Properties. Progress in Materials Science. 2016, 81,1-54.

7. M. S. Liu, B. Su, Y. V. Kaneti, Z. Chen, Y. Tang, Y. Yuan, Y. F. Gao, X. C. Jiang, * A. B. Yu and L. Jiang. Dual-Phase Transformation: Spontaneous Self-Template Surface-Patterning Strategy for Ultra-Transparent VO2 Solar Modulation Coatings. ACS Nano, 2017, 11, 407-415. (DOI 10.1021/acsnano.6b06152)

8. M.S. Liu, B. Su, Y. Tang, X.C. Jiang* and A.B. Yu. Recent Advances in Nanostructured Vanadium Oxides and Composites for Energy Conversion. Adv. Energy Mater. 2017, 7, 1700885 (34 pages). DOI: 10.1002/aenm.201700885.

9. SF Wang, WR Fan, ZC Liu, AB Yu and XC Jiang*. Advances on Tungsten Oxide Based Photochromic Materials: Strategies to improve photochromic properties. J. Mater. Chem. C 2018, 6, 191-212. Accepted on Nov.23 2017 (DOI: 10.1039/C7TC04189F) (Review)

10. S Zeb, XJ Peng, GZ Yuan, X Zhao, GX Sun, Y Nie, XC Jiang,* Y Cui. Controllable synthesis of ultrathin WO3 nanotubes and nanowires with excellent gas sensing performance. Sensor Actuator B: Chemical, 2020, 305, 127435.

Representative Patents

1. Y. Xia, Y. Sun, B. Mayers, X. C. Jiang, and D. Sunderland. Metallic Nanostructures, Formation and Shape Selection. USA, No. US 10/732,910 (2003).

2. X. H. Yang, X. C. Jiang and A. B. Yu. A Facile but Efficient for Silver-Titanium Dioxide Nanocomposites with Highly Efficiency in Environmental Remediation. Chinese Patent: CN201310131545.1 (2013)

3. M.S. Liu, X.C. Jiang, and A.B. Yu. The Method for Thermochromic VO2 Thin Film Coatings, Chinese Patent, CN201410404928.6 (2014)

4. M.S. Liu, X.C. Jiang, and A.B. Yu. A Method for the Preparation of VO2 (Anatase Phase) Nanoparticles. CN201410795991.7 (2014)

5. S.F. Wang, X.C. Jiang, and A.B. Yu. A New Method for Water Harvesting with High Efficiency. CN2016105737776 (2016).

6. M.S. Liu, X.C. Jiang, and A.B. Yu. A Method for Well Dispersed Anatase Vanadium Dioxide Nanoparticles, 2017.

7. A method for preparation of VO2 inks and coatings. 201811407165.5

8. A method of preparation of anatase VO2 nanopowders. 201811407204.1

9. A solid synthesis method for generating large scale anatase VO2 nanopowders. 201811407373.5

10. A method for synthesis of anatase VO2 fine powders. 201811407464.9

Others

· Associate Editor/Editorial Board Member of 3 journals: (1) Inter. J. of Nano Study and Technology; (2) World J. of Cancer Res.; and (3) Sensors

· International conference organizer/Session Chair

· Delivered over 30 plenary, Keynote and invited talks in national and international conferences

· OZ reader for ARC and NHMRC grants and Assessor for China NSF grants

· Examiner for PhD thesis from different countries (Aus. France, Singapore and China,)

· Referee for tens of journals (Adv. Mater., Small, ACS Nano, Chem. Mater. Nanoscale, Langmuir)

 

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