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姓 名 刘 健 性 别 男 出生年月 1980年 5月

出生地 内蒙古乌

兰察布市

婚姻状况 已婚 政治面貌 群众

国 籍 中国 从事专业 能源材料/能源化学

现工作单位及职位 澳大利亚科廷大学化工系，高级讲师/研究

生主管

人事关系所在单位 大连市人才交流中心

学习及工作经历：

（从大学开始填，内容包括时间、单位、学位、所学专业、从事专业、专业技术

职务情况，时间段要连续，准确到月份）

主要学习经历：

2005 年 7 月-2008 年 10 月，中科院大连化学物理研究所，理学博士，物理化学

专业

2002 年 9 月-2005 年 4 月，中科院大连化学物理研究所与哈尔滨工程大学联合培

养，工学硕士，应用化学/ 物理化学专业

1998 年 9 月-2002 年 7 月，内蒙古工业大学，工学学士，无机非金属材料专业

主要工作经历：

2014 年 12 月至今， 澳大利亚科廷大学化工系，高级讲师/研究生主管

2013 年 4 月-2014 年 12 月，澳大利亚科廷大学化工系，讲师

2011 年 1 月-2013 年 4 月，澳大利亚生物工程与纳米技术研究所，昆士兰大学，

Research Fellow/Australian Postdoctoral Fellowship (APD)

2009 年 2 月-2011 年 1 月，澳大利亚生物工程与纳米技术研究所，昆士兰大学，

UQ Postdoctoral Research Fellowship

2011 至 2014 年期间曾先后在美国华盛顿大学（University of Washington），加

州大学河滨分校（University of California Riverside），日本国立物质材料研究所

（National Institute of Materials Science）和法国里尔一大（Université Lille1

Sciences et Technologies）从事短期访问学者工作。

如内容较多，本栏目填不下时，可另纸接续（下同）。

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主要学术成就、科技成果及创新点：

主要学术成就及科技成果：

主要致力于纳米多孔材料在催化，能源存储与转化方面的研究。在包括 Nature Mater.,

Nature Commun., NPG Asia Mater., Angew. Chem. Int. Ed., Adv. Mater., JACS,

Nano Today, Adv. Funct. Mater.,等国际刊物发表正式论文 100 余篇（Nature 子刊 3

篇，Angew. Chem. 6 篇）。引用超过 5200 余次，H 因子为 37。已获授权专利 4 项，

编著 5 章节，国际学术会议邀请报告 10 余次，此外在国内外著名大学及研究机构讲

学和国际会议上作学术报告 30 余次。任 Wiley 旗下杂志“Asia-Pacific Journal of

Chemical Engineering”执行主编，英国皇家化学会（RSC）旗下杂志“RSC Advances”

副主编，澳大利亚昆士兰大学荣誉高级讲师，Board Member of RACI Carbon

Division，英国皇家化学会，澳大利亚材料学会等多个国际学术组织会员。担任澳大

利亚 ARC, Cooperative Research Centres (CRC) program, 波兰 National Science

Center (NSC)，韩国 National Research Foundation of Korea (NRF) 等多个国家研

究项目的评阅人，及包括 Angew. Chem. Int. Ed, Adv. Mater., Adv. Energy Mater.,

Adv. Funct. Mater., Chem. Commun., Energy Environ. Sci., ACS Nano, JACS 等知

名期刊审稿人。主要获得如下奖励和荣誉：UQ Foundation Research Excellence

Award, Australian Postdoctoral Fellowship (APD), JSPS Invitation Fellowships, UQ Postdoctoral Research Fellowship, Rod Rickards Fellowship, Young Scientists

Award of the 14th International Congress on Catalysis 及中科院院长奖。

主要科技成果及创新点：

Dr Liu’s research has elucidated of new synthesis paradigms for the creation of nanoporous materials, hollow and yolk shell structured materials. He has made significant contributions to the development of advanced nanoporous materials and their applications in energy conversion and storage, catalysis, drug delivery. His classic research on making the yolk-shell structured particles, has led the development of new nanoreactors and energy storage devices. The nanoporous carbon spheres that he and his colleagues developed have made it possible to improve the efficiency of energy storage and conversion devices by molecular level design of the electrodes. Dr Liu’s specific scientific research contributions to the field can be summarised as follows:

i. Yolk Shell Structured Nanoparticles as New Platforms for Energy Conversion and Storage

Yolk/shell nanoparticles (YSNs) are promising functional nanomaterials for a variety of applications such as catalysis, delivery, lithium-ion batteries and biosensors due to their tailorability and functionality in both the cores and shells, hollow space between the core and shell. Dr Liu and colleagues developed novel strategies for the synthesis of YSNs with controllable sizes, compositions, geometries, structures and functionalities. In 2010, the team has developed a general and facile template strategy for the fabrication of yolk-shell structured materials with movable cores and porous shells. (Liu, J. et al., Angew. Chem. Int. Ed., 2010, 49, 4981–4985. Inside Cover). This breakthrough has attracted great scientific interest and the paper has been highlighted in “Nature Materials”, and “Chemistry World”. The paper has been cited more than 300 times in five years

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and the synthesis strategies established have been widely adopted by other researchers in this field. Until now, various synthetic approaches have been exploited to synthesize yolk shell nanoparticles; meantime, yolk shell nanoparticles with different size, geometry, composition, controlled core and shell properties have been obtained. More importantly, many applications have also been explored, showing the industrial importance of these materials. In addition, it was found that yolk shell structured carbon spheres can be easily obtained through a one-step solution synthesis of polymer spheres followed by a pyrolysis process that occurred in the hermetical silica shell; it provides an alternative strategy for synthesis of yolk shell particles, in particularly, for metal nanoparticles loaded yolk shell catalysts.

ii. Nanoporous Carbon Spheres for Energy Conversion and Storage

Carbon-based nanostructured electrodes are at the heart of fundamental advances in the development of efficient Li-ion/Li-S batteries and electrical double layer capacitors (EDLC). Dr Liu and his colleagues developed carbon nanostructured electrode materials, including novel microporous carbon spheres, mesoporous carbon spheres, core shell and yolk shell carbon spheres with hierarchical porous structures. The team developed a strategy to synthesise monodisperse polymer spheres from resorcinol–formaldehyde (RF) resin and carbon “Stöber” spheres. (Liu, J. et al., Angew. Chem. Int. Ed. 2011, 50, 5947. VIP paper and Inside Cover). This is essentially an improvement and extension of the Stöber route involving emulsion polymerisation, which is facile and efficient in producing monodisperse resin spheres. The resulting paper has been highly cited (>200 times) by world leading groups (e.g. M. Jaroniec, S. Dai, D.Y. Zhao) and in top journals such as Nature Mater., J. Am. Chem. Soc., Angew. Chem.. Over 200 papers have been published in the last four years using this method for the synthesis of various carbon spheres, for example, microporous carbon spheres, mesoporous carbon spheres, and hollow carbon spheres. In addition, modified carbon spheres have been prepared through a bottom up self-assembly approach using different functional precursors, or post-synthesis modification method. After that, Dr Liu and his team have been working on design and synthesis of various nanoporous carbon spheres (NCSs) (including novel microporous carbon spheres, mesoporous carbon spheres, core shell and yolk shell carbon spheres with hierarchical porous structures) with high monodispersity, defined size and orientation of pores, tunable surface area, and controlled surface properties and structural ordering. A general strategy was developed for the synthesis of versatile carbon nanospheres impregnated with highly monodispersed metal nanoparticles including (Au, Pt, Rh, Ru, Ag, Pd, Ir, Fe and Cu), testing these metal-loaded carbon particles as catalysts for the hydrogenation of benzaldehyde showed outstanding performance. So far, Dr Liu and colleagues have published more than15 peer-review journal articles in this area, including one paper in Nature Mater., one paper in Nature Commun., and one paper in NPG Asia Mater..

In summary, having worked in three premier research institutions in the past ten years, Dr Liu has established himself as a researcher, in bridging fabrication of functional nanomaterials with their applications in catalysis, biomedical and energy conversion and storage devices, via exploiting fundamental physical and chemical principles for innovative manufacturing.

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主要论著目录：

（1.论文作者、题目、期刊名称、年份、卷期、页、总引次数、他引次数、期刊

影响因子；2.著作：著者、书名、出版社、年份）

目录列表最后请注明论文总引次数、他引次数、期刊影响因子的查询截止时间和查询数

据库。

Summary of publications • 105 refereed publications in more than 45 Journals, 5 book chapters since 2004;

• 12 papers were selected as Cover Paper;

• 59 papers with impact factor (IF) > 5, 41 papers with impact factor (IF) > 7, 18 papers with impact factor (IF) > 10 (see Table below);

• As of December 2015, Liu has > 5200 citations (Thomson Reuters), 6008 citations (Google Scholar), Average citations per article: 50 (Thomson Reuters), an H-index of 37 (Thomson Reuters), 41 (Google Scholar); i10-index of 78; 5 papers citations > 300 times; 9 papers citations > 200 times; 16 papers citations > 100 times;

• Top 5 Journals of Publication Numbers in his career: J. Mater. Chem. (13); Micropor. Mesopor. Mater. (12), Chem. Commun. (9), Angew. Chem. Int. Ed. (6); Chem. Eur. J. (5).

Journal IF Publicat

ion No.

Journal IF Publica

tion No.

Nature Mater. 36.503 1 Small 8.368 2

Energy Environ. Sci. 20.523 1 Chem. Mater. 8.354 3

Adv. Mater. 17.493 1 ChemSusChem 7.657 1

Nano Today 15.000 1 J. Mater. Chem. 7.443 13

ACS Nano 12.881 1 Nanoscale 7.394 2

J. Am. Chem. Soc. 12.113 2 Nano Res. 7.010 1

Adv. Funct. Mater. 11.805 3 J. Catal. 6.921 1

Nature Commun. 11.470 1 Chem. Commun. 6.834 9

Angew. Chem. 11.261 6 Chem. Eur. J. 5.731 5

NPG Asia Mater. 10.118 1 Scientific Rep. 5.578 2

Biomaterials 8.557 1 Adv. Sci. N/A 1

BOOK CHAPTERS

1. Tianyu Yang, Jian Liu and Michael J. Monteiro, “Chapter 2, Yolk-shell Structured Nanoparticles: Synthesis, Surface Functionalization and their Nanomedicine Application”, In: Nanomaterials: Science and Applications, 2016: in press, edited by Deborah M. Kane, Adam Micolich, Peter Roger (Eds.), Pan Stanford Publishing Pt Ltd. ISBN: 978-981-4669-72-6 (Book Cover)

2. Sheng Chen, Jian Liu and Shi Zhang Qiao, “Chapter 3, Heteroatom-Doped Nanoporous Carbon for Electrocatalysis” In: Nanocarbons for Advanced Energy Conversion: Volume 2, 2015: 43–73, edited by Xinliang Feng. Wiley-VCH in Weinheim, Germany. ISBN 978-3-527-33666-1. (Sheng Chen and Jian Liu are contributed equally to this work)

3. Jian Liu, Shi Zhang Qiao and Gao Qing (Max) Lu, “Chapter 7, Synthesis and Application of Hollow Nanostructured Silica”, In: Nanotechnology in Australia:

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Showcase of Early Career Research, 2011: 219–258, edited by Deborah M. Kane, Adam P. Micolich, and James R. Rabeau, (Eds.), Pan Stanford Publishing Pt Ltd. ISBN: 978-981-4310-02-4.

4. Shi Zhang Qiao, Jian Liu and Gao Qing (Max) Lu, “Chapter 21, Synthetic Chemistry of Nanomaterials” In: Modern Inorganic Synthetic Chemistry, 2011: 479–506, edited by Ruren Xu, Wenqin Pang, Qisheng Huo (Eds), Elsevier, ISBN: 978-0-444-53599-3.

5. Qihua Yang and Jian Liu, “Chapter 10, Synthesis of Mesoporous Silicas and Organosilicas under Mild Reaction Medium”, In: Bio-Inspired Materials Synthesis, 2010: 225–248, Yanfeng Gao (Eds.), Research Signpost, Kerala, India, ISBN: 978-81-308-0401-9.

REFEREED JOURNAL ARTICLES（*为通讯作者）

通讯作者论文：（合计 21 篇）

1. Tianyu Yang, Huajuan Ling, Jean-François Lamonier, Mietek Jaroniec, Jun Huang,*

Michael J. Monteiro* and Jian Liu*, “A synthetic strategy for carbon nanospheres impregnated with highly monodispersed metal nanoparticles” NPG Asia Materials, 2016, 8, in press, accepted on 13

th November 2015. (Corresponding author)

2. Tingting Liu, Lili Qu, Kun Qian, Jian Liu,* Qiao Zhang,* Lihong Liu and Shaomin Liu*, “Raspberry-like Hollow Carbon Nanospheres with Enhanced Matrix-free Peptide Detection Profiles” Chemical Communications, 2016, 52, in press, accepted on 26

th

November 2015. (Corresponding author)

3. Liqiu Zhang, Kun Qian, Xupeng Wang, Fan Zhang, Xin Shi,* Yijiao Jiang, Shaomin Liu, Mietek Jaroniec and Jian Liu*, “Yolk-Shell Structured Aluminum Phenylphosphonate Microspheres with Anionic Core and Cationic Shell” Advanced Science, 2016, 3, 9164–9168, accepted on 11

th December 2015. (Corresponding author)

4. Jing Tang, Jian Liu,* Cuiling Li, Yunqi Li, Moses O. Tade, Sheng Dai* and Yusuke Yamauchi*, “Synthesis of Nitrogen-Doped Mesoporous Carbon Spheres with Extra-Large Pores through Assembly of Diblock Copolymer Micelles” Angewandte Chemie International Edition, 2015, 54, 588–593. (Corresponding author)

5. Tianyu Yang, Ruifeng Zhou, Da-Wei Wang, San Ping Jiang, Yusuke Yamauchi, Shi Zhang Qiao,* Michael J. Monteiro* and Jian Liu*, “Hierarchical mesoporous yolk-shell structured carbonaceous nanospheres for high performance electrochemical capacitive energy storage” Chemical Communications, 2015, 51, 2518–2521. (Cover Paper, Corresponding author)

6. Jinsuo Gao*, Xueying Zhang, Yong Lu, Shaomin Liu and Jian Liu*, “Selective Functionalization of Hollow Nanosphere with Acid and Base Groups for Cascade Reactions” Chemistry-A European Journal, 2015, 21, 7403–7407. (Corresponding author)

7. Yash Boyjoo, Kelly Merigot, Jean-François Lamonier, Vishnu K. Pareek, Moses O. Tade and Jian Liu*, “Synthesis of CaCO3@C yolk-shell particles for CO2 adsorption” RSC Advances, 2015, 5, 24872–24876. (Corresponding author)

8. Jinsuo Gao*, Jingjing Chen, Xueying Zhang, Meiwen Wang, Xiaona Li, Feng Tan, Shutao Xu* and Jian Liu*, “Azide-functionalized Hollow Silica Nanospheres for Removal of Antibiotics” Journal of Colloid and Interface Science, 2015, 444, 38–41. (Corresponding author)

9. Jing Tang, Jian Liu*, Nagy L. Torad, Tatsuo Kimura*, and Yusuke Yamauchi*, “Tailored design of functional nanoporous carbon materials toward fuel cell applications” Nano Today, 2014, 9, 305–323. (Corresponding author, Invited Review)

10. Yash Boyjoo, Vishnu K. Pareek and Jian Liu*, “Synthesis of Micro and Nano-Sized Calcium Carbonate Particles and Their Applications” Journal of Materials Chemistry A, 2014, 2, 14270–14288. (Corresponding author, Feature Article)

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11. Tianyu Yang, Jian Liu,* Ruifeng Zhou, Zhigang Chen, Hongyi Xu, Shi Zhang Qiao* and Michael J. Monteiro*, “N-Doped Mesoporous Carbon Spheres as an Efficient Metal-Free Electrocatalysts for Oxygen Reduction” Journal of Materials Chemistry A, 2014, 2, 18139–18146. (Corresponding author)

12. Juming Liu, Qiancheng Zhang,* Jucai Yang, Huiyan Ma, Moses O. Tade, Shaobin Wang and Jian Liu*, “Facile synthesis of carbon-doped mesoporous anatase TiO2 for the enhanced visible-light driven photocatalysis” Chemical Communications, 2014, 50, 13971–13974. (Corresponding author)

13. Jinsuo Gao,* Xueying Zhang, Shutao Xu, Feng Tan, Xinyong Li, Yaobin Zhang, Zhenping Qu, Xie Quan and Jian Liu*, “Clickable PMOs: Synthesis, clickability and adsorption of antibiotics” Chemistry-A European Journal, 2014, 20, 1957–1963. (Corresponding author)

14. Liqiu Zhang, Xin Shi,* Shaomin Liu, Vishnu K. Pareek and Jian Liu*, “Organic–inorganic hybrid hierarchical aluminum phenylphosphonate microspheres” Journal of Colloid and Interface Science, 2014, 427, 35–41. (Corresponding author)

15. Jian Liu,* Hao Liu,* Tianyu Yang, Guoxiu Wang and Moses O. Tade, “Mesoporous carbon with large pores as anode for Na-ion batteries” Chinese Science Bulletin, 2014, 59, 2186–2190. (Corresponding author)

16. Jian Liu,* Tianyu Yang, Da-Wei Wang, Gao Qing (Max) Lu, Dongyuan Zhao and Shi Zhang Qiao*, “A facile soft-template synthesis of mesoporous polymeric and carbonaceous nanospheres” Nature Communications, 2013, 4, 2798; doi: 10.1038/ncomms3798, Published 17 Dec 2013 (Corresponding author, Nature Communications is ranked #3 in the multidisciplinary sciences category behind Nature and Science, highlighted in Chemistry in Australia, 2014, March, 12; Chemical Engineering in Australia, 2014, 39, 1; Energising WA, 2014, March, 8)

17. Tianyu Yang, Jian Liu,* Yao Zheng, Michael Monteiro and Shi Zhang Qiao*, “Facile fabrication of core-shell structured Ag@Carbon and mesoporous yolk-shell structured Ag@Carbon@Silica by an extended Stöber method” Chemistry-A European Journal, 2013, 19, 6942–6945. (VIP Paper, Cover Paper, Highlight by Chemistry Views, Highlighted in Angewandte Chemie International Edition, 2013, 52, 5672. Corresponding author)

18. Zheng Yang Zhao, Jian Liu,* Mandy Hahn, Shizhang Qiao,* Anton P.J. Middelberg and Lizhong He*, “Encapsulation of lipase in mesoporous silica yolk-shell spheres with enhanced enzyme stability” RSC Advances, 2013, 3, 22008–22013. (Corresponding author)

19. Xiaobo Li, Jian Liu,* Anthony F. Masters, Vishnu K. Pareek and Thomas Maschmeyer*, “Hollow micro/nanomaterials as nanoreactors for photocatalysis” APL Materials, 2013, 1, 041101; http://dx.doi.org/10.1063/1.4826155 (Invited Feature Article, Corresponding author, selected as picks from APL Material Editors)

20. Xiaoyan Zhang, Tingting Liu, Weidong Sun and Jian Liu*, “Mesoporous Organosilica Hollow Microspheres with Hierarchical Structures on the Shell” Journal of Nanoscience Nanotechnology 2013, 13, 3046–3053. (Corresponding author)

21. Yan Yang, Xiao Liu, Xiaobo Li, Jiao Zhao, Shiyang Bai, Jian Liu* and Qihua Yang*, “Yolk-Shell Nanoreactor with Basic Core and Acidic Shell for Cascade Reactions” Angewandte Chemie International Edition, 2012, 51, 9164–9168. (Corresponding author, Hot Paper, Highlighted in Materials views China)

第一作者论文：（合计 20 篇）

22. Jian Liu, Nilantha P. Wickramaratne, Shi Zhang Qiao and Mietek Jaroniec*, “Molecular-based design and emerging applications of nanoporous carbon spheres” Nature Materials, 2015, 14, 763–774.

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23. Jian Liu, Heng Quan Yang, Freddy Kleitz, Zhi Gang Chen, Tianyu Yang, Ekaterina Strounina, Gao Qing (Max) Lu* and Shi Zhang Qiao*, “Yolk-Shell Hybrid Materials with Periodic Mesoporous Organosilicas (PMO) Shell: Ideal Nanoreactors for Selective Alcohol Oxidation” Advanced Functional Materials, 2012, 22, 591–599. (Cover Paper)

24. Jian Liu, Bo Wang, Sandy Budi Hartono, Tingting Liu, Phillip Kantharidis, Anton P.J. Middelberg, Gao Qing (Max) Lu, Lizhong He* and Shi Zhang Qiao*, “Magnetic Silica Spheres with Large Nanopores for Nucleic Acid Adsorption and Cellular Uptake” Biomaterials, 2012, 33, 970–978.

25. Jian Liu, Shi Zhang Qiao*, Hao Liu, Jun Chen, Ajay Orpe, Dongyuan Zhao and Gao Qing (Max) Lu*, “Extension of Stöber Method for the Preparation of Monodisperse Resorcinol Formaldehyde Resin Polymer and Carbon Spheres” Angewandte Chemie International Edition, 2011, 50, 5947–5951. (VIP Paper, Cover Paper, highlighted in Angewandte Chemie International Edition, 2011, 50, 9023–9025; and Chemistry in Australia, 2011, 78(7), 10.)

26. Jian Liu, Shi Zhang Qiao*, Qiu Hong Hu and Gao Qing (Max) Lu*, “Magnetic Nanocomposites with Mesoporous Structures: Synthesis and Applications” Small, 2011, 7, 425–443. (Cover Paper, invited review)

27. Jian Liu, Shi Zhang Qiao*, Jun Song Chen, Xiong Wen (David) Lou*, Xianran Xing and Gao Qing (Max) Lu*, “Yolk/shell nanoparticles: new platforms for nanoreactors, drug delivery and lithium-ion batteries” Chemical Communications, 2011, 47, 12578–12591. (Invited Feature Article, Top 25 most-read ChemComm articles in 2013)

28. Jian Liu, Ryan Harrison, Ji Zhi Zhou, Ting Ting Liu, Chengzhong Yu, Gao Qing (Max) Lu, Shi Zhang Qiao* and Zhi Ping Xu*, “Synthesis of nanorattles with layered double hydroxide core and mesoporous silica shell as delivery vehicles” Journal of Materials Chemistry, 2011, 21, 10641–10644.

29. Jian Liu, Shi Zhang Qiao*, Sandy Budi Hartono and Gao Qing (Max) Lu*, “Monodisperse Yolk-Shell Nano-Particles with Hierarchical Porous Structure as Delivery Vehicles and Nanoreactors” Angewandte Chemie International Edition, 2010, 49, 4981–4985. (Cover Paper, highlighted in Chemistry World, 2010, 7(7) 30; Nature Materials, 2010, 9, 534; and Chemistry in Australia, 2010, 77(9), 9, one of 25 the most frequently cited papers among those published in 2010 or 2011, the 25 papers including the papers published from Prof. Michael Gratzel, Prof. Klaus Mullen, Prof. Jurgen Caro, Prof. Shuit-Tong Lee, Prof. C. N. R. Rao, )

30. Jian Liu, Sandy Budi Hartono, Yong Gang Jin, Zhen Li, Gao Qing (Max) Lu and Shi Zhang Qiao*, “A Facile Vesicle Template Route to Multi-shelled Mesoporous Silica Hollow Nanospheres” Journal of Materials Chemistry, 2010, 20, 4595–4601. (Cover Paper)

31. Jian Liu, Shiyang Bai, Hua Zhong, Can Li* and Qihua Yang*, “Tunable Assembly of Organosilica Hollow Nanospheres” The Journal of Physical Chemistry C, 2010, 114, 953–961.

32. Jian Liu, Jie Yang, Congming Li and Qihua Yang*, “Catalytic applications of sulfonic acid functionalized mesoporous organosilicas with different fraction of organic groups in the pore wall” Journal of Porous Materials, 2009, 16, 273–281.

33. Jian Liu, Qihua Yang*, Lei Zhang, Hengquan Yang, Jinsuo Gao and Can Li*, “Organic-inorganic Hybrid Hollow Nanospheres with Microwindows on the Shell” Chemistry of Materials, 2008, 20, 4268–4275.

34. Jian Liu, Fengtao Fan, Zhaochi Feng, Qihua Yang*, Shiyang Bai,

Lei Zhang and Can

Li*, “From Hollow Nanosphere to Hollow Microsphere: Mild Buffer Provides Easy Access to Tunable Silica Structure” The Journal of Physical Chemistry C, 2008, 112, 16445–16451.

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35. Jian Liu, Lei Zhang, Qihua Yang* and Can Li*, “Structural Control of Mesoporous Silicas with Large Nanopores in a Mild Buffer Solution” Microporous and Mesoporous Materials, 2008, 116, 330–338.

36. Jian Liu, Qihua Yang*, Lei Zhang, Dongmei Jiang, Xin Shi, Jie Yang, Hua Zhong and Can Li*, “Thioether-bridged Mesoporous Organosilicas: Mesophase Transformation Induced by the Bridged Organosilane Precursor” Advanced Functional Materials, 2007, 17, 569–576.

37. Jian Liu, Congming Li, Qihua Yang*, Jie Yang and Can Li, “Morphological and Structural Evolution of Mesoporous Silicas in a Mild Buffer Solution and Lysozyme Adsorption” Langmuir, 2007, 23, 7255–7262. (Cover Paper for June 19, 2007 Langmuir)

38. Jian Liu, Qihua Yang*, X. S. Zhao and Lei Zhang, “Pore size control of mesoporous silicas from mixtures of sodium silicate and TEOS” Microporous and Mesoporous Materials, 2007, 106, 62–67.

39. Jian Liu, Jie Yang, Qihua Yang*, Gang Wang and Ying Li, “Hydrothermal stable Thioether-Bridged Mesoporous Materials with voids in the pore wall” Advanced Functional Materials, 2005, 15, 1297–1302.

40. Jian Liu, Qihua Yang*, M. P. Kapoor, N. Setoyama, S. Inagaki, Jie Yang and Lei Zhang, “Structural relation properties of hydrothermally stable functionalized mesoporous organosilicas and catalysis” The Journal of Physical Chemistry B, 2005, 109, 12250–12256.

41. Jian Liu, Qihua Yang*, Lei Zhang and Yajun Guo, “Advances in Hybrid Organic-inorganic Mesoporous Silicas” Progress in Chemistry, 2005, 17, 809–817.

等同一作及第二作者论文：（合计 29 篇）

42. Yao Zheng, Jian Liu, Ji Liang, Mietek Jaroniec and Shi Zhang Qiao*, “Graphitic carbon nitride materials: Controllable synthesis and applications in fuel cells and photocatalysis” Energy & Environmental Science, 2012, 5, 6717–6731. (Yao Zheng and Jian Liu are contributed equally to this work) (Invited Perspective)

43. Jinsuo Gao, Jian Liu, Shiyang Bai, Peiyuan Wang, Hua Zhong, Qihua Yang* and Can Li,* “The Nanocomposites of SO3H-hollow-nanosphere and Chiral Amine for Asymmetric Aldol Reaction” Journal of Materials Chemistry, 2009, 19, 8580–8588. (Cover Paper) (Jinsuo Gao and Jian Liu are contributed equally to this work.)

44. Jing Tang, Jian Liu, Rahul R. Salunkhe, Tao Wang and Yusuke Yamauchi*, “Nitrogen-doped Hollow Carbon Spheres with Large Mesoporous Shells Engineered from Diblock Copolymer Micelles” Chemical Communications, 2015, 51, in press, accepted on 20

th October 2015.

45. Norihiro Suzuki, Jian Liu and Yusuke Yamauchi*, “Recent Progress on Tailored Synthesis of Various Mesoporous Fibers toward Practical Applications” New Journal of Chemistry, 2014, 38, 3330–3335. (Cover Paper, Focus, Invited Feature Article)

46. Hamed Ataee-Esfahani, Jian Liu, Ming Hu, Nobuyoshi Miyamoto, Kevin C. W. Wu, and Yusuke Yamauchi*, “Mesoporous Metallic Cells: Design of Uniformly-Sized Meso-porous Pt-Ru Hollow Particles with Tunable Shell Thick-nesses” Small, 2013, 9, 1047–1051.

47. Amirali Popat, Jian Liu, Qiuhong Hu, Michael Kennedy, Brenton Peters, Gao Qing (Max) Lu* and Shi Zhang Qiao*, “Adsorption and release of biocides with mesoporous silica nanoparticles” Nanoscale, 2012, 4, 970–975. (Hot Paper, highlighted in Chemistry World, and Nanoscale Blog, 04 January 2012)

48. Amirali Popat, Jian Liu, Gao Qing (Max) Lu and Shi Zhang Qiao*, “pH-responsive drug delivery system based on chitosan coated mesoporous silica nanoparticles” Journal of Materials Chemistry, 2012, 22, 11173–11178.

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49. Xia Wu, Jian Liu, Zhigang Chen, Qihua Yang*, Can Li, Gaoqing Lu and Lianzhou Wang*, “Amino acid assisted synthesis of mesoporous TiO2 nanocrystals for high performance dye-sensitized solar cells” Journal of Materials Chemistry, 2012, 22, 10438–10440.

50. Shiyang Bai, Jian Liu, Jinsuo Gao, Qihua Yang* and Can Li*, “Hydrolysis Controlled Synthesis of Amine-Functionalized Hollow Ethane-silica Nanospheres as Adsorbents for CO2 Capture” Microporous and Mesoporous Materials, 2012, 151, 474–480.

51. Tai Sun, Jian Liu, Yi Jia, Hui Wang, Dalin Sun, Min Zhu* and Xiangdong Yao*, “Confined LiBH4: Enabling Fast Hydrogen Release at ~100°C” International Journal of Hydrogen Energy, 2012, 37, 18920–18926.

52. Yan Yang, Jian Liu, Xiaobo Li, Xiao Liu and Qihua Yang*, “Organosilane Assisted Transformation from Core-shell to Yolk-shell Nanocomposites” Chemistry of Materials, 2011, 23, 3676–3684.

53. Jun Song Chen, Jian Liu, Shi Zhang Qiao* and Xiong Wen (David) Lou*, “Formation of Large 2D Nanosheets via PVP-assisted Assembly of Anatase TiO2 Nanomosaics” Chemical Communications, 2011, 47, 10443–10445.

54. Jinsuo Gao, Jian Liu, Jianting Tang, Dongmei Jiang, Bo Li and Qihua Yang*, “Chirally Functionalized Hollow Nanospheres Containing L-Prolinamide: Synthesis and Asymmetric Catalysis” Chemistry-A European Journal, 2010, 16, 7852–7858.

55. Jianting Tang, Jian Liu, Peiyuan Wang, Hua Zhong and Qihua Yang*, “Evolution from Hollow Nanospheres to Highly Ordered FDU-12 Induced by Inorganic Salts under Weak Acidic Conditions” Microporous and Mesoporous Materials, 2010, 127, 119–125.

56. Qihua Yang*, Jian Liu and Lei Zhang, “Functionalized periodic mesoporous organosilicas: Hierarchical and chiral materials” Science China Chemistry, 2010, 53, 351–356. (Feature Article)

57. Qihua Yang, Jian Liu, Lei Zhang and Can Li*, “Functionalized Periodic Mesoporous Organosilicas for Catalysis” Journal of Materials Chemistry, 2009, 19, 1945–1955. (Invited Feature Article)

58. Hua Zhong, Jian Liu, Peiyuan Wang, Jie Yang and Qihua Yang*, “Inorganic Salt Aided Synthesis of Monolithic Silica with Meso/macro Hierarchical Structure” Microporous and Mesoporous Materials, 2009, 123, 63–70.

59. Jianting Tang, Jian Liu, Jie Yang, Zhaochi Feng, Fengtao Fan and Qihua Yang*, “Mesoporous titanosilicates with high loading of titanium synthesized in mild acidic buffer solution” Journal of Colloid and Interface Science, 2009, 335, 203–209.

60. Jinsuo Gao, Jian Liu, Dongmei Jiang, Bing Xiao and Qihua Yang*, “L-Prolinamide-functionalized mesoporous silicas: Synthesis and catalytic performance in direct Aldol reaction” Journal of Molecular Catalysis A: Chemical, 2009, 313, 79–87.

61. Qihua Yang*, Jian Liu, Hua Zhong and Peiyuan Wang, “Progressing in the Periodic Mesoporous Organosilica” Journal of Inorganic Materials, 2009, 24, 641–649. (Invited Reviews)

62. Lei Zhang, Jian Liu, Jie Yang, Qihua Yang* and Can Li*, “Tartardiamide-functionalized Chiral Organosilicas with Highly Ordered Mesoporous Structure” Chemistry-An Asian Journal 2008, 3, 1842–1849.

63. Hongchuan Xin, Jian Liu, Fengtao Fan, Zhaochi Feng, Guoqing Jia, Qihua Yang* and Can Li*, “Mesoporous ferrosilicates with high content of isolated iron species synthesized in mild buffer solution and their catalytic application” Microporous and Mesoporous Materials, 2008, 113, 231–239.

64. Congming Li, Jian Liu, Lei Zhang, Jie Yang and Qihua Yang*, “Mesoporous organosilicas containing disulfide moiety: synthesis and generation of sulfonic acid functionality through chemical transformation in the pore wall” Microporous and Mesoporous Materials, 2008, 113, 333–342.

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65. Lei Zhang, Jian Liu, Jie Yang, Qihua Yang* and Can Li*, “Direct Synthesis of Highly Ordered Amine-Functionalized Mesoporous Ethane-Silicas” Microporous and Mesoporous Materials, 2008, 109, 172–183.

66. Congming Li, Jian Liu, Xin Shi, Jie Yang and Qihua Yang*, “Periodic Mesoporous Organosilicas with 1,4-Diethylenebenzene in the Framework: Synthesis, Characterization and Bio-adsorption Properties” The Journal of Physical Chemistry C, 2007, 111, 10948–10954.

67. Xin Shi, Jian Liu, Congming Li and Qihua Yang*, “Pore-Size Tunable Mesoporous Zirconium Organophosphonates with Chiral L-Proline for Enzyme Adsorption” Inorganic Chemistry, 2007, 46, 7944–7952.

68. Hong Wang, Jian Liu, Peng Liu, Qihua Yang, Jianliang Xiao and Can Li*, “Asymmetric Diels-Alder Reactions on Supported Bis(Oxazoline) Catalysts” Chinese Journal of Catalysis, 2006, 27, 946–948.

69. Qihua Yang*, Jian Liu, Jie Yang, Lei Zhang, Zhaochi Feng, Jing Zhang and Can Li, “Acid Catalyzed Synthesis of Ordered Bifunctionalized Mesoporous Organosilicas with Large Pore” Microporous and Mesoporous Materials, 2005, 77, 257–264.

70. Qihua Yang*, Jian Liu, Jie Yang, Mahendra P. Kapoor, Shinji Inagaki and Can Li, “Synthesis, characterization, and catalytic activity of sulfonic acid-functionalized periodic mesoporous organosilicas” Journal of Catalysis, 2004, 228, 265–272.

其它合作发表论文：（合计 34 篇）

71. Jing Tang, Rahul R. Salunkhe, Jian Liu, Nagy L. Torad, Masataka Imura, Shuhei Furukawa and Yusuke Yamauchi*, “Thermal Conversion of Core-Shell Metal-Organic Frameworks: A New Method for Selectively Functionalized Nanoporous Hybrid Carbon” Journal of the American Chemical Society, 2015, 137, 1572–1580.

72. Li Li, Wenyi Gu, Jian Liu, Shiyu Yan and Zhi Ping Xu*, “Amine-functionalized SiO2 nanodot-coated layered double hydroxide (LDH) nanocomposites for enhanced gene delivery” Nano Research, 2015, 8, 682–694.

73. Juan Peng, Jia Liu, Jian Liu, Yan Yang, Can Li and Qihua Yang*, “Fabrication of core-shell structured mesoporous silica nanospheres with dually oriented mesochannels through pore engineering” Journal of Materials Chemistry A, 2014, 2, 8118–8125.

74. Tingting Liu, Lihong Liu, Jian Liu, Shaomin Liu* and Shi Zhang Qiao*, “Magnetic Fe3O4 and Mesoporous Silica Core-Shell Nanospheres with Tunable Size and Large Void Pore for Cellular Uptake” Frontiers of Chemical Science and Engineering, 2014, 8, 114–122.

75. Na Li, Qiao Zhang, Jian Liu, Jibong Joo, Austin Lee, Yang Gan and Yadong Yin*, “Sol-gel Coating of Inorganic Nanostructures with Resorcinol-Formaldehyde Resin” Chemical Communications, 2013, 49, 5135—5137. (Cover Paper)

76. Kun Qian, Liang Zhou, Jian Liu, Jie Yang, Hongyi Xu, Meihua Yu, Amanda Nouwens, Jin Zou, Michael J. Monteiro and Chengzhong Yu*, “Laser Engineered Graphene Paper for Matrix-Free MS Detection and Imaging” Scientific Reports, 2013, 3, 1415 | DOI: 10.1038/srep01415.

77. Amirali Popat, Benjamin P. Ross, Jian Liu, Siddharth Jambhrunkar, Freddy Kleitz and Shi Zhang Qiao*, “Enzyme-Responsive Controlled Release of Covalently Bound Prodrug from Functional Mesoporous Silica Nanospheres” Angewandte Chemie International Edition, 2012, 51, 12486–12489. (Highlight by Chemistry Views)

78. Jun Song Chen, Chunping Chen, Jian Liu, Rong Xu, Shi Zhang Qiao* and Xiong Wen Lou*, “Ellipsoidal hollow nanostructures assembled from anatase TiO2 nanosheets as magnetically separable photocatalyst” Chemical Communications, 2011, 47, 2631–2633.

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79. Hao Liu, Guoxiu Wang*, Jian Liu, Shizhang Qiao* and Hyojun Ahn, “Highly Ordered Mesoporous NiO Anode Material for Lithium Ion Batteries with an Excellent Electrochemical Performance” Journal of Materials Chemistry, 2011, 21, 3046–3052.

80. Wen Qi Fang, Ji Zhi Zhou, Jian Liu, Zhi Gang Chen, Chen Yang, Cheng Hua Sun, Guang Ren Qian, Jin Zou, Shi Zhang Qiao* and Hua Gui Yang*, “Hierarchical Structures of Single-Crystalline Anatase TiO2 Nanosheets Dominated with {001} Facets” Chemistry-A European Journal, 2011, 17, 1423–1427.

81. Guoxiu Wang*, Hao Liu, Jian Liu, Shizhang Qiao*, Gao Qing Max Lu and Paul Munroe, “Mesoporous LiFePO4/C Nanocomposite Cathode Materials for High Power Lithium ion Batteries with Superior Performance” Advanced Materials, 2010, 22, 4944–4948.

82. Sandy Budi Hartono, Shi Zhang Qiao*, Jian Liu, Kevin Jack, Bradley P. Ladewig, Zhengping Hao and Gao Qing Max Lu*, “Functionalized Mesoporous Silica with Very Large Pores for Cellulase Immobilization” The Journal of Physical Chemistry C, 2010, 114, 8353–8362.

83. Peiyuan, Wang, Jie Yang, Jian Liu, Lei Zhang and Qihua Yang*, “Chiral Mesoporous Organosilicas with R-(+)-Binol Integrated in the Framework” Microporous and Mesoporous Materials, 2009, 117, 91–97.

84. Qihua Yang*, Jie Yang, Jian Liu, Ying Li and Can Li, “Synthesis and Characterization of Phosphonic Acid Functionalized Organosilicas with Bimodal Nanostructure” Chemistry of Materials, 2005, 17, 3019–3024.

85. Zhengyang Zhao, Junfei Tian, Zhangxiong Wu, Jian Liu, Dongyuan Zhao, Wei Shen and Lizhong He*, “Enhancing enzymatic stability of bioactive papers by implanting enzyme-immobilized mesoporous silica nanorods into paper” Journal of Materials Chemistry B, 2013, 1, 4719–4722.

86. Sandy B. Hartono, Wenyi Gu, Freddy Kleitz, Jian Liu, Lizhong He*, Anton P.J. Middelberg, Chengzhong Yu*, Gao Qing (Max) Lu and Shi Zhang Qiao*, “Poly-L-lysine Functionalized Large Pore Cubic Mesostructured Silica Nanoparticles as Biocompatible Carriers for Gene Delivery” ACS Nano, 2012, 17, 2104–2117.

87. Ji Liang, Yao Zheng, Jun Chen, Jian Liu, Denisa Hulicova-Jurcakova, Mietek Jaroniec and Shizhang Qiao*, “Facile Oxygen Reduction on 3-Dimensionally Ordered Macroporous graphitic-C3N4/Carbon Composite Electrocatalyst” Angewandte Chemie International Edition, 2012, 51, 3892–3896.

88. Yao Zheng, Yan Jiao, Jun Chen, Jian Liu, Ji Liang, Aijun Du, Weimin Zhang, Zhonghua Zhu, Sean C. Smith, Mietek Jaroniec, Gao Qing (Max) Lu and Shi Zhang Qiao*, “Nanoporous graphitic-C3N4@Carbon metal-free electrocatalysts for highly efficient oxygen reduction” Journal of the American Chemical Society, 2011, 133, 20116–20119.

89. Amirali Popat, Sandy Budi Hartono, Frances Stahr, Jian Liu, Shi Zhang Qiao* and Gao Qing (Max) Lu*, “Mesoporous Silica Nanoparticles for Bioadsorption, Enzyme Immobilisation, and Delivery Carriers” Nanoscale, 2011, 3, 2801–2818. (Invited review, Top 20 Most Accessed Nanoscale Articles in 2014)

90. Xiao Liu, Xiaobo Li, Zaihong Guan, Jian Liu, Jiao Zhao, Yan Yang and Qihua Yang*, “Organosilica nanotubes: large-scale synthesis and encapsulation of metal nanoparticles” Chemical Communications, 2011, 47, 8073–8075.

91. Jianting Tang, Hongchuan Xin, Weiguang Su, Jian Liu, Can Li and Qihua Yang*, “Synthesis of hierarchical mesoporous copper silicates under near neutral conditions and their catalytic properties in phenol hydroxylation” Chinese Journal of Catalysis, 2010, 31, 386–393. (Cover Paper)

92. Congming Li, Jie Yang, Peiyuan Wang, Jian Liu and Qihua Yang*, “Organic-inorganic hybrid materials: Poly-p-styrenesulfonic Acid Supported on SBA-15 via Surface-initiated Atom transfer radical polymerization (ATRP)” Microporous and Mesoporous Materials, 2009, 123, 228–233.

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93. Lei Zhang, Qihua Yang*, Hengquan Yang, Jian Liu, Hongchuan Xin, Brahim Mezari, Pieter C. M. M. Magusin, Hendrikus C. L. Abbenhuis, Rutger A. van Santen* and Can Li*, “Super-microporous Organosilicas Synthesized from Well-defined Nanobuilding Units” Journal of Materials Chemistry, 2008, 18, 450–457.

94. Hua Zhong, Guiru Zhu, Peiyuan Wang, Jian Liu, Jie Yang and Qihua Yang*, “Direct Synthesis of Hierarchical Monolithic Silicas for High Performance Liquid Chromatography” Journal of Chromatgraphy A, 2008, 1190, 232–240.

95. Congming Li, Jie Yang, Xin Shi, Jian Liu and Qihua Yang*, “Synthesis of SBA-15 type mesoporous organosilicas with diethylenebenzene in the framework and post-synthetic framework modification” Microporous and Mesoporous Materials, 2007, 98, 220–226.

96. Kun Zhang, Chi Zhang, Ling Zhao, Bo Meng, Jian Liu, Shaomin Liu, “Enhanced Oxygen Permeation Behavior of Ba0.5Sr0.5Co0.8Fe0.2O3−δ Membranes in a CO2-Containing Atmosphere with a Sm0.2Ce0.8O1.9 Functional Shell” Energy & Fuels, 2016, 30, accepted on 4

th December 2015.

97. Jin Zhang, Shanfu Lu, Yan Xiang, Pei Kang Shen, Jian Liu and San Ping Jiang*, “The role of number of walls of carbon nanotubes in the electrocatalytic activity of supported Pd nanoparticles for alcohol oxidation reactions of fuel cells” ChemSusChem, 2015, 8, 2956–2966.

98. Yan Yang, Xiaojie Song, Yi Yao, Hao Wu, Jian Liu, Yaopeng Zhao, Mingqian Tan* and Qihua Yang*, “Ultrasmall single micelle@resin core–shell nanocarriers as efficient cargo loading vehicles for in vivo biomedical applications” Journal of Materials Chemistry B, 2015, 3, 4671–4678.

99. Chi Zhang, Ran Ran, Gia Hung Pham, Kun Zhang, Jian Liu and Shaomin Liu*, “Ce0.9Gd0.1O2-δ Membranes Coated With Porous Ba0.5Sr0.5Co0.8Fe0.2O3-δ for Oxygen Separation” RSC Advances, 2015, 5, 5379–5386.

100. Jinsuo Gao*, Xueying Zhang, Shutao Xu, Jian Liu, Feng Tan, Xinyong Li, Zhenping Qu, Yaobin Zhang and Xie Quan, “Clickable SBA-15 for Screening Functional Groups of Antibiotics Adsorption” Chemistry-An Asian Journal 2014, 9, 908–914.

101. Dezhi Han, Jinhu Wu, Zifeng Yan, Kun Zhang, Jian Liu and Shaomin Liu*, La0.6Sr0.4Co0.2Fe0.8O3-δ Hollow Fibre Membrane Performance Improvement by Coating of Ba0.5Sr0.5Co0.9Nb0.1O3-δ Porous Layer. RSC Advances, 2014, 4, 19999–20004.

102. Bo Zhang, Dong Wang, Yu Hou, Shuang Yang, Xiao Hua Yang, Ju Hua Zhong, Jian Liu, Hai Feng Wang, P. Hu, Hui Jun Zhao and Hua Gui Yang*, “Facet-Dependent Catalytic Activity of Platinum Nanocrystals for Triiodide Reduction in Dye-Sensitized Solar Cells” Scientific Reports, 2013, 3, 1836 | DOI: 10.1038/srep01836.

103. Zhen Li*, Xuedan Ma, Qiao Sun, Zhe Wang, Jian Liu, Zhonghua Zhu, Shi Zhang Qiao, Sean C. Smith, Gaoqing (Max) Lu* and Alf Mews*, “Synthesis and Characterization of Colloidal Core–Shell Semiconductor Nanowires” European Journal of Inorganic Chemistry, 2010, 4325–4331.

104. Jie Yang, Qihua Yang*, Gang Wang, Zhaochi Feng and Jian Liu, “Synthesis and catalytic properties of mesoporous ethane-silicas containing phenyl-sulfonic acid group” Journal of Molecular Catalysis A: Chemical, 2006, 256, 122–129.

105. Qihua Yang*, Ying Li, Lei Zhang, Jie Yang, Jian Liu and Can Li, “Hydrothermal Stability and Catalytic Activity of Aluminum-containing Mesoporous Ethane-silicas” The Journal of Physical Chemistry B, 2004, 108, 7934–7937.

论文总引用次数： 5205 次

查询截至日期： 2015 年 12 月 18 日

查询数据库： ISI Web of Science

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主持(参与)科研项目及申请专利：

(项目来源、项目名称、经费、个人在其中的作用)

I have a strong track record in securing funding, since 2009, I have obtained more than 12 grants (ca AUD $2.2M) including two ARC Discovery Project grants ($660k) and one ARC Linkage Project grants ($240k). As the first named chief investigator, I was managing five grants including one sole CI ARC DP grant.

主持（参与）科研项目：

2015-2018，Prof. Shaomin Liu, Dr Jian Liu, Prof. Moses Tade, Syngas Production

Using Catalytic Carbon Dioxide Dry Reforming. LP150101158, Australian

Research Council (ARC) Linkage Projects, ARC（澳大利亚国家基金委）, 24 万澳元

（约 120 万人民币），共同主要完成人

2011-2013，Dr Jian Liu, Design of Nanostructured Porous Carbon as Electrode

Materials for Supercapacitor Devices. UQ Foundation Research Excellence

Awards, University of Queensland, 8 万澳元（约 40 万人民币），独立完成人

2011-2013，Prof Chengzhong Yu, Prof Gaoqing Max Lu, Prof Xinguo Jiang, Dr

Jian Liu, Design nanocarriers for targeted hydrophobic anticancer drug delivery

with enhanced bioavailability. DP110101978, Australian Research Council (ARC)

Discovery Projects, ARC（澳大利亚国家基金委）, 42 万澳元（约 200 万人民币），

共同主要完成人

2010-2012，Dr Jian Liu, Nanostructured Degradable Polymer for Drug Delivery.

DP1094070, ARC DP （澳大利亚国家基金委）, 24 万澳元（约 120 万人民币），独

立完成人

2010-2011，Dr Jian Liu, Prof. Shizhang Qiao, Prof. G. Q. Max Lu, UQ Postdoctoral

Research Fellowship. University of Queensland, “Silica-based Hollow

Nanospheres for Biotechnological and Biomedical Applications” 28 万澳元（约 140

万人民币）， 共同主要完成人

2010-2011, Dr Jian Liu, UQ Early Career Researcher Grants, University of

Queensland, “Rattle-type Hollow Nanostructured Cathode Materials for

High-Performance Lithium-Ion Batteries” 3.5 万澳元（约 20 万人民币），独立完成人

专利申请：

1. Qihua Yang, Jian Liu and Jie Yang, “An Adsorbent for Heavy Metal Ions” Chinese patent number: ZL 2004 1 0070107 X.

2. Qihua Yang, Jian Liu Lei Zhang and Can Li, “A Novel Synthesis Method for Hybrid Hollow Nanospheres” ZL 2007 1 0012158.0

3. Qihua Yang, Congming Li and Jian Liu, “A Novel Sulfonic Functionalized Hybrid Materials with Unique Structure” Chinese patent application number: 200710012712.5.

4. Qihua Yang, Jinsuo Gao and Jian Liu, “Synthesis and Application of L-proline Functionalized Mesoporous Silicas” ZL 2008 1 0013568.1

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获科技奖情况：

（项目名称、奖项、获奖时间、本人在其中的作用及排名、获奖总人数）

UQ Foundation Research Excellence Award, University of Queensland, in

2011 （2011年度澳大利亚昆士兰大学基础研究杰出成就奖，独立获奖人）

获各类荣誉奖情况：

France-Australia Science Innovation Collaboration (FASIC) program Early Career Fellowships, and 2014 Rod Rickards Fellowship Australian Academy of Science, in 2014

Pro Vice-Chancellor Awards for Research Excellence (Early Career Research Award), Curtin University, in 2013

JSPS Invitation Fellowships, Australian Academy of Science and the Japan Society for the Promotion of Science, in 2013

The Australian Nanotechnology Network (ANN) Travel Awards for Asia Nano Camp 2012, in 2012

Australian Postdoctoral Fellowship (APD), Australian Research Council (ARC), in 2010

UQ Trans-Pacific Fellowship Award, University of Queensland, in 2010

Chinese Academy of Sciences Excellent PhD Thesis Nomination Award, Chinese Academy of Sciences, in 2010

UQ Early Career Researcher Award, University of Queensland, in 2009

UQ Postdoctoral Research Fellowship, University of Queensland, in 2009

Dean Award of Chinese Academy of Sciences in 2008

Excellent Graduate Student Award of Jiaxi LU in 2008

Young Scientists Award of the 14th International Congress on Catalysis, in 2008

Model Outstanding Student of Chinese Academy of Sciences in 2005-2006

Conference and Professional Society Memberships

I have given more than 30 invited talks/oral presentations at international conferences and meetings. I was a keynote speaker at the 1st International Conference on BioNano Innovation (ICBNI). I also have been invited to give a talk in several universities and institutes, including Tsinghua University (China), and selected as Session Chairs for

16

many conferences. I was member of the organising committee for the International Symposium on Functional Nanomaterials in Brisbane 2009. I am also an Organising Committee Member for IMMS2015 (Internation Mesostructure Materials Symposium 2015) in Brisbane in 2015, Organising Committee Member OF Curtin-UQ Workshop on Nanostructured Electromaterials for Energy in Perth in 2016, and Organising Committee Member of 19

th IZC (International Zeolite Congress) to be held in Perth in 2019. I am a

member of the following professional societies:

• Member of International Zeolite Association (IZA) (from 2007-)

• Member of Australian Research Council Nanotechnology Network (from 2009-)

• Member of International Mesostructured Materials Association (IMMA) (from 2013-)

• The Royal Australian Chemical Institute Incorporated Member (MRACI) (from 2014-)

• Certified Materials Professional (CMatPTM

), Member of Materials Australia (from 2014-)

• Member of Royal Chemistry Society (MRSC) (from 2015-)

• Board Member of RACI Carbon Division (from 2015-)

• Editorial Board Member of Current Nanoscience (from 2014-)

• Editor of Asia-Pacific Journal of Chemical Engineering (from 2015-)

• Associate Editor of RSC Advances (from 2015-)

• ECR Deputy for Faculty Research & Development Committee (FRDC) at Curtin (from 2014-)

• Post Graduate Coordinator in Department of Chemical Engineering (from 2015-)

• Western Australia Chinese Scientists Association (WACSA) Council Member (from 2015-)

Research Supervision

I have made substantial contributions to mentoring and research supervision. I have supervised and co-supervised two PhD students, three research honour students and one Master student to completion since 2009. Currently, I am supervising/co-supervising four PhD students and two Master students at Curtin. In addition, I am also supervising one postdoctoral research fellow and one visiting scholar. In addition, I supervise around six research honour students per semester for their research project.

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受聘后拟开展研究工作的计划和思路（包括研究方向、内容和目标）：

受聘后拟继续开展能源纳米材料与多相催化相结合的研究工作，设计和制备新的

能源材料，探索其在二氧化碳转化为高附加值化学品方面的应用。主要开展工作

如下：

纳米反应器

新合成策略

简便可放大合成策略的发展，精确调控功能及活性中心位置；

催化基础研究

CO2资源化转化- CO2 捕获富集- 人工光合成；- 电催化还原；

具有Janus，及多

级结构纳米反应器合成探索；

新结构的探索

研究纳米反应器中的协

同催化（如酸与金属纳米粒子），多功能催化剂的发展，串联反应；

应用催化研究

纳米生物反应器在二氧化碳转化为可再生燃料中的应用

研究目标

本研究的目标是将酶和光催化剂集合到单个纳米反应器中，设计 CO2转化为

可再生燃料的纳米生物反应器。我们将先进的纳米技术与酶工程相结合设计纳米

反应器，使 CO2 捕获和利用在纳米反应器中同时进行。技术关键在于利用蛋黄-

蛋壳结构 (yolk-shell nanoparticles, YSNs) 的独特性质，将酶和光催化体系组装到

纳米反应器的特定空间中。如图 1a 所示，通过对 YSNs 内核和壳层的选择性功能

化对酶进行选择性固载，位于壳层的酶将捕获 CO2，然后在位于中心核的酶上进

行转化。其中， CO2 转化酶将组装在光催化剂中心核上，利用太阳能光催化产生

的自由电子对 CO2 进行还原。这种新型结构可以将两种酶分别固载，在材料表面

的 CO2 捕获和内部的 CO2 转化协同进行，从而高效率地实现 CO2转化为液体燃料

的可持续过程。

自然界中生物体系如绿色植物的光合作用体系可以将 CO2 转化为糖类，这同

时是一个能量存储过程。然而这一自然过程的太阳能利用效率通常 <1%。另一方

面，人工太阳能利用装置如太阳能电池可以将太阳能高效转化为电能，效率约为

20%。然而电能的存储是目前面临的极大挑战。人工光合作用是将太阳能转化为

可存储能源如燃料的最具有前景的技术之一，然而该技术仍处于起步阶段。尽管

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在人工光合作用体系的各个独立反应的研究中取得了一些重大的进展，但是目前

仍没有可以将各个独立反应集成到一个体系完成 CO2 高效转化的纳米反应器。为

了应对这一挑战，该项目的具体目标如下：

(1) 纳米生物反应器中同时进行 CO2 捕获和转化。我们将根据需要，分别功能化

金属内核和氧化硅壳层，使酶选择性地组装到光催化剂/辅助体系，实现不同

酶的空间隔离。其中 YSNs 壳层用于固载碳酸酐酶 (carbonic anhydrase, CA)

以有效捕获 CO2，中心内核用于固载可以将 CO2 转化为甲酸的甲酸脱氢酶

(formate dehydrogenase, FDH)。YSNs 纳米生物反应器将有利于捕获和富集

CO2 并高效进行转化。

(2) 太阳能光催化与 CO2 生物转化相结合。现有的光电转化技术能够将太阳能有

效转化为自由电子，然而 CO2 转化过程中电子利用率较低，损失了大部分自

由电子。分析其原因，可能是光催化剂与生物酶体系的结合较差。我们将重

点调控 FDH 酶在光催化剂内核上的浓度和分布以提高自由电子的利用率，同

时利用空气稳定的 FDH 确保复合体系的稳定性。

(3) 纳米生物反应器结构和功能的构效关系。我们将系统研究纳米反应器形貌、

粒子尺寸、孔结构和表面功能性对太阳能利用效率和酶催化活性的影响规律，

构建结构和功能的构效关系，这将有利于进一步提高 CO2 转化效率，为新一

代纳米生物反应器的设计提供指导。

(4) 建立可用于其他酶和催化体系的纳米生物反应器。通过对 CO2 转化的研究，

研究目标 1-3 的成果可以拓展到其他需要酶和催化协同进行的体系。为了实现

这一目标，我们将发展纳米生物反应器的设计思路，实现多种酶体系的协同

和串联反应。

图 1

(a) 纳米生物反

应器的设计示

意图;

(b) 光催化体系

耦合 FDH 酶催

化还原 CO2 转

化的反应流程

(NADH 为辅助

体系)

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所需科研条件：

（包括科研经费、实验室面积、仪器设备、人员等，并简要说明所需条件的必要

性和预算依据）

申请人的研究内容为新型能源材料，需要实验支持如下：

1、 科研启动经费：300万元。启动经费使用计划：

（1） 实验室基本装修费及配套设备费（用于购置实验台与通风橱及其配套系统、

供气与供水系统、废水与废液处理系统）；

（2） 实验材料费（用于购买原材料、试剂、药品、玻璃仪器、高精密天平、超声

仪器、加热搅拌器、干燥烘箱等）；

（3） 基本仪器设备费（电化学工作站：70,000 元;标准 AM1.5 光源（Newport）

和普通氙灯光源：200,000 元; 气相色谱仪：200,000 元; 水热反应釜及配件：15,000

元; 马弗炉：25,000 元; 管式炉及配件：5,0000 元; 烘箱及真空烘箱：30,000 元;

精密天平：25,000 元; pH 计：10,000 元; 搅拌器：15,000 元; 移液器：10,000 元;

小型高速离心机：20,000 元; 普通超声清洗器：10,000 元)

（4） 药品和耗材（贵金属靶材，各种电极，各种气体，实验室日常耗材等）

（5） 科研业务费

2、 实验室面积：70~80平方米。包括如下三个实验室：

（1）50 m2 化学合成高端实验室 (配有外接气路（Ar，N2，H2，O2）和通风厨)

（2）10 m2 可容纳1个高温马弗炉和1个管式炉的小型高温合成实验室

（3）20 m2 固定床反应器实验室

3、 基础材料合成和表征仪器： X 射线衍射仪，扫描电镜，高分辨透射电镜，气

相色谱仪，管式炉及配件,比表面积与孔分析仪,电子能量损失谱（EELS）,

高分辨EDS、元素mapping、X射线光电子能谱（XPS）,拉曼光谱,红外光谱,

热分析质谱（TG/DTG）等手段表征。

4、 基础材料合成和表征仪器： X 射线衍射仪，扫描电镜，高分辨透射电镜，气

相色谱仪，管式炉及配件,比表面积与孔分析仪,电子能量损失谱（EELS）,

高分辨EDS、元素mapping、X射线光电子能谱（XPS）,拉曼光谱,红外光谱,

热分析质谱（TG/DTG）等手段表征。

5、 人员：每年招收1-2名博士或硕士生。

申请人所加入的团队已经具备部分上述仪器或设备，但仍然需要购置一些相关设备，

因此需要科研经费约300万。

20

家庭基本情况（主要包括配偶、子女等）：

妻子为澳大利亚科廷大学化工系在读博士生，预计 2016年 9月提交博士论文。

有一子。

其它说明及希望研究所协助解决的问题

希望协助解决以下问题：

1. 配偶就业问题

2. 子女入学问题

3. 临时住房问题