【学习及工作经历】

EDUCATION AND ACADEMIC EXPERIENCE

Dr. Qiang Li received his Ph.D. in Nanoscience in 2014 from Aarhus University, Denmark. He then worked as a postdoctoral fellow and senior scientist in the Bio-SPM group, Aarhus University. He is currently a professor in the School of Chemistry and Chemical Engineering at Shandong University since 2016. His research mainly focuses on the development of novel scanning probe microscope technique for probing the physical and chemical properties at the nanoscale.

【主讲课程】

【研究领域和兴趣】

RESEARCH INTERESTS

1. Physical Chemistry, development and application of advanced scanning probe microscopy;

2. Colloid and Interfacial Chemistry, controlled synthesis of nanomaterials and their applications inelectronic and energy devices;      

3. Nanomedicine, nanotechnology based approaches in anticancer research, intelligent drug loading and sustained drug release, nano pharmacodynamics research;

4. Nanocatalyst, design of new efficient nanocatalyst for hydrogen evolution reaction, oxygen evolution reaction, green organic synthesis, pollutant degradation and other chemical reactions;

5. Electrospun technique, electrospun nanofibers for tissue engineering and haze governance.

【主要论著】

LIST OF PUBLICATIONS

2018

47 Quasi-one-dimensional MoS₂ nanoscrolls as metallic wires, Wang, Z.G.; Wu, H.H.; Li. Q.;Besenbacher, F.; Zeng, X.C.; Dong, M.D.*,

Manuscript Submitted, 2018

46 In vitro single-cell dissection: interior structure of cable bacteria, Jiang, Z.X.; Zhang, S.; Klausen, L.H.; Song, J.; Li,Q.; Huang, Y.D.; Besenbacher, F.; Nielsen, L.P.*; Dong,M.D.*,

Proceedings of the National Academy of Sciences, 2018, accepted

45 The electric field screening and ambipolar transport behavior of WSe₂ transistors, Wang, Z.G.; Li, Q.; Chen, Y.F.; Li,Y.R.; Besenbacher, F.; Dong,M.D.*,

NPG Asian Materials, 2018, accepted

44 Controllable etching of MoS₂ basal planes for enhanced hydrogen evolution through the formation of active edge sites, Wang,Z.G.; Li, Q.; Xu, H.X.; Petersen, C.; Yang, Q.; Cheng, D.J.;Cao, D.P.;Besenbacher, F.; Lauritsen, J.; Helveg, S.; Dong,M.D.*,

Nano Energy, 2018, 49, 634-643

43 RNA nanopatterning on graphene, Li, Q.; Froning,J.P.; Pykal, M.; Zhang, S.; Wang, Z.G.; Vondrák, M.; Banáš,P.; Čépe, K.;Jurečka P.; Šponer, J.; Zbořil, R.; Dong,M.D.*; Otyepka, M.*

2D Materials, 2018,5,031006

42 Studying the adhesion force and glass transition of thin polystyrene films by atomic force microscopy,  Kang, H.; Qian, X.Q.; Guan, L.*; Zhang, M.N.; Li, Q.*; Wu, A.L.; Dong, M.D.*

Nanoscale Research Letters, 2018, 13:5

2017

41 Extracting the inner wall from nested double-walled carbon nanotube by platinum nanowire: molecular dynamics simulations,  Xia, D.; Luo, Y.C.; Li, Q.*; Zhang, X.M.; Xue, Q.Z.; Liang, C.Y.*; Dong, M.D.*,

RSC Advances, 2017, 7, 39480-39489

40 Direct mapping of chemical oxidation of individual graphene sheets through dynamic force measurements at nanoscale, Froning, J.; Lazar, P.;Pykal, M.; Li, Q.;Dong, M.D.; Zbořil, R.; Otyepka, M.*,

Nanoscale, 2017, 9,119–127

39 In situ probing the relaxation properties of ultrathin polystyrene films by using electric force microscopy,  Qian, X.Q.; Lin, Z.H.; Guan, L.; Li, Q.; Wang,Y.P.; Zhang, M.N.; Dong, M.D.*,

Nanoscale Research Letters, 2017, 12: 257

2016

38  Facile synthesis of single crystal PtSe₂ nanosheets for nanoscale electronics, Wang, Z.G.; Li, Q.; Besenbacher, F.; Dong, M.D.*,

Advanced Materials, 2016, 28, 10224–10229

37 In vivo re-endothelialization of the smooth muscle cell biomimetic cardiovascular stent machining by femtosecond laser, Liang, C.Y.; Hu, Y.C.; Wang, H.S.; Xia, D.; Li, Q.; Zhang,J.; Yang, J.; Li, B.; Li, H.P.; Han, D.; Dong, M.D.*,

Biomaterials, 2016, 103, 170-182

36  Enhancing photoresponsivity of self-aligned MoS₂ field-effect transistor by piezo-phototropic effect from GaN nanowire, Liu, X.Q.; Yang, X. N.; Gao. G.Y.; Yang, Z.Y.; Liu, H.T.; Li, Q.; Lou, Z.; Shen, G.Z.; Liao, L.; Hu, G.F.; Pan, C.F.*; Wang, Z.L.,

ACS Nano, 2016, 10 (8), 7451–7457

35  Super flexibility and stability of graphene nanoribbons under severe twist, Xia, D.; Li, Q.; Xue,Q.Z.; Liang, C.Y.; Dong, M.D.*,

Physical Chemistry Chemical Physics, 2016, 18, 18406-18413

34  Magnetic properties of strontium hexaferrite nanostructures measured with magnetic force microscopy, Li, Q.; Song, J; Múzquiz, M.; Besenbacher, F.; Christensen, M.; Dong, M.D.*,

Scientific Reports, 2016, DOI: 10.1038/srep25985

33  Controlled synthesis of high-quality crystals of monolayer MoS₂ for nanoelectronic device application, Yang, X.N.†; Li,Q.†(equal contribution); Hu, G.F.; Wang, Z.G.; Yang, Z.Y.; Liu, X.Q.; Dong, M.D.; Pan,C.F.*,

Science China Materials, 2016, 59 (3), 182-190

32  Synergistic inhibitory effect of peptide-organic co-assemblies on amyloid aggregation, Niu, L.; Liu, L.; Xi,W.H.; Han, Q.S.; Li, Q.; Yu, Y.; Huang, Q.; Qu, F.Y.; Xu, M.; Li,Y.B.; Du, H.W.; Yang, R.; Cramer, J.; Gothelf, K. V.; Dong, M.D.; Besenbacher, F.;Zeng, Q.D.; Wang, C.*; Wei, G.H.*; Yang, Y.L.*,

ACS Nano, 2016, 10 (4), 4143–4153

31  The ultrastructures and mechanical properties of the Descement’s membrane in Fuchs endothelium cornealdystrophy, Xia, D.; Zhang, S.; Nielsen, E.; Ivarsen, A.; Liang, C.Y.; Li, Q.; Thomsen, K.; Hjortdal, J.; Dong, M.D.*,

Scientific Reports, 2016, DOI: 10.1038/srep23096

30  Identification of parallel β-stand conformation within molecular monolayer of amyloid peptide,   Liu,L.†; Li, Q.† (equal contribution); Zhang, S; Wang, X.F.;Hoffmann, S. V.; Li, J.Y.; Liu, Z.; Besenbacher, F.*; Dong, M.D.*,

Advanced Science, 2016, 3, 1500369

29  Improved performance of SrFe₁₂O₁₉ bulk magnets through bottom-up nanostructuring, Múzquiz, M.; Miralles, C;Stingaciu, M.; Bøjesen, E.; Li, Q.; Song, J.; Dong, M.D.;Blichfeld, A.; Christensen, M.*,

Nanoscale, 2016, 8, 2857-2866

28  Mutations in COL1A1 gene change dentin nanostructure, Duan, X.H.*; Liu, Z.X.; Gan,Y.N.; Xia, D.; Li, Q.; Li, Y.L.; Yang, J.J.; Gao, S.; Dong, M.D.,

The Anatomical Record, 2016, 299 (4), 511-519

2015

27  Routing of individual polymers in designed patterns, Knudsen, J. B.; Liu, L.; Kodal, A. L.; Madsen, M.; Li, Q.; Song, J.; Wöhrstein, J.; Wickham, S. F.; Strauss, M.; Schuder, F.;Sørensen, J. V.; Krissanaprasit, A.; Gudnason, D. A.; Smith, A.; Ogaki, R.; Zelikin,A.; Besenbacher, F.; Birkedal, V.; Yin, P.; Shih, W.; Jungmann, R.; Dong, M.D.*;Gothelf, K. V.*,

Nature Nanotechnology, 2015, 10, 892-898

26  Two-dimensional material confined water, Li, Q.; Song, J.; Besenbacher, F.*;Dong, M.D.*,

Account of Chemical Research, 2015, 48 (1), 119-127

25  Size-effect of graphene oxide on modulating amyloid peptide assembly, Wang, j.; Cao, Y.P.; Li, Q.;Liu, L.; Dong. M.D.*,

Chemistry-A European Journal, 2015, 21,9632-9637

24  Dental abnormalities caused by novel compound heterozygous CTSK mutations, Xue, Y.; Wang, L.F.; Xia. D.; Li, Q.; Gao, S.; Dong, M.D.; Cai, T.; Shi, S.T.; He, L.S.; Hu, K.J.; Mao,T.Q.;Duan, X.H.*,

Journal of Dental Research, 2015, 94 (5), 674-681

2014

23  Evidence of stranski-krastanov growth at the initial stage of the atmospheric water condensation, Song, J.†; Li, Q.†(equal contribution); Wang, X.F.; Li, J.Y.; Kjems, J.; Besenbacher, F.*;Dong, M.D.*,

Nature Communication, 2014, DOI: 10.1038/ncomms5837

22  Modulating Aβ 33-42 peptide assembly by graphene oxide, Li, Q.; Liu, L.; Zhang, S.; Xu, M.; Wang, X.Q.; Wang, C.; Besenbacher, F.;Dong, M.D.*,

Chemistry-A European Journal, 2014，20 (24), 7236-7240

21  Hydrated human corneal stroma revealed by quantitative dynamic atomic force microscopy at nanoscale, Xia, D.;Zhang, S.; Hjortdal, J.; Li, Q.; Thomsen, K.; Chevallier, J.;Besenbacher, F.*; Dong. M.D.*,

ACS Nano, 2014, 8 (7), 6873-6882

20  One dimensional Ba_xSr_1-xEr_yFe_12-yO₁₉ fibers with magnetic crystalline nanoparticles, Meng, X.F.; Mi, J.L.; Li, Q.; Bortolini, C.; Dong. M.D.*,

Materials Research Express, 2014, 1, 036106

19  Switchable supramolecular assemblies on graphene, Zhou, Q.Y.; Li, Y.B.; Li, Q.; Wang, Y.B.; Yang, Y.L.; Fang, Y.*; Wang, C.*,

Nanoscale, 2014, 6 (14), 8387-8391

18  Controlled construction of nanostructures in graphene,  Li, Z. J.; Li, Q.;Cheng, Z. G.; Li, H. B.; Fang, Y.*,

Chinese Physics B, 2014 23 (2) 28102

17  A high efficiency H₂S gas sensor material: paper like Fe₂O₃/graphene nanosheets and structural alignment dependency of device efficiency,

Jiang, Z.X.; Li, J.; Aslan, H.; Li, Q.; Li, Y.; Chen, M.;Huang, Y.D., Froning, J.; Otyepka, M.; Zbořil, R.; Besenbacher, F.; Dong, M.D.*,

Journal of Materials Chemistry A,2014, 2 (19), 6714-6717

16  Pyridyne cycloaddition of graphene: “external” active sites for oxygen reduction reaction, Zhong, X.; Yu,H.Y.; Zhuang, G.L.; Li, Q.; Wang, X.D.; Zhu, Y.; Liu, L.; Li, X.;Dong. M.D.; Wang, J.G.*,

Journal of Materials Chemistry A, 2014, 2 (4), 897-901

15  Transition of chemically modified diphenylalanine peptide assemblies revealed by atomic force microscopy, Zeng, G. H.; Liu,L.; Xia, D.; Li, Q.; Xin, Z.; Wang, J. G.; Besenbacher, F.;Skrydstrup, T.; Dong, M. D.*,

RSC Advances, 2014, 4, 7516-7520

2013

14  Quantification of the interaction forces between metals and graphene by DFT calculations and dynamic force measurements under ambient conditions, Lazar, P.; Zhang, S.; Šafářová,K.; Li, Q.; Froning, J.; Granatier, J.; Hobza, P.; Zbořil, R.; Besenbacher,F.; Dong, M.D.*; Otyepka, M.*,

ACS Nano, 2013, 7 (2) 1646-1651

13  Mechanical reinforcement fibres produced by gel spinning of poly-acrylic acid (PAA) and graphene oxide (GO)composites, Jiang, Z.X.; Li, Q.; Chen, M.L.; Li, J.B.; Li, J.;Huang, Y.D., Besenbacher, F.; Dong. M.D.*,

Nanoscale, 2013, 5, 6265-6269

12  Facilitating the mechanical properties of a high-performance pH-sensitive membrane by cross-linking graphene oxide and polyacrylic acid, Jiang, Z.X.; Xia, D.; Li, Y.; Li, J.; Li, Q.;Chen, M. L.; Huang, Y.D., Besenbacher, F.; Dong, M.D.*,

Nanotechnology, 2013, 24, 335704

11  Isothermal hybridization kinetics of DNA assembly of two-dimensional DNA origami, Song, J.; Zhang, Z.;Zhang, S.; Liu, L.; Li, Q.; Xie, E.Q.; Gothelf, K.V.;Besenbacher, F.; Dong, M.D.*,

Small, 2013, 9 (17), 2954-2959

2012

10  CO oxidation over graphene supported palladium catalyst, Li, Y.Z.; Yu, Y.; Wang, J.G.; Song, J.; Li, Q.; Dong, M.D.; Liu, C.J.*,

Applied Catalysis B: Environmental, 2012, 125 (0), 189-196

9   Direct force producing uniform ultra-thin chitosan films by atomic force microscopy, Zhao, H.L.; Zhang, S.; Li, Q.;Li, Y.L.; Liu, B.; Besenbacher, F.; Dong. M.D.*,

RSC Advances, 2012, 2 (7), 2732-2735

2011

8   Towards clean graphene surfaces: a systematic study on thermal annealing and wet-chemical treatment of SiO₂ supported graphene devices, Cheng, Z.G.; Zhou, Q.Y.; Wang, C.X.; Li, Q.; Wang, C.*; Fang, Y.*,

Nano Letters, 2011, 11 (2), 767-771

7   Direct electrospinning of Ag/polyvinylpyrrolidone nanocables, Song, J.; Chen, M.; Olesen, M.B.; Wang, C.X.; Havelund, R.; Li, Q.; Xie, E.Q.; Yang, R.; Bøggild, P.; Wang, C.; Besenbacher, F.; Dong.M.D.*,

Nanoscale, 2011, 3 (12), 4966-4971

2010

6   Graphene and nanowire transistors for cellular interfaces and electrical recording, Cohen-Karni, T.†; Qing, Q.†; Li, Q.†(equal contribution); Fang, Y.*; Lieber, C. M.*,

Nano Letters, 2010, 10 (3), 1098-1102.

5   Suspended graphene sensors with improved signal and reduced noise, Cheng, Z.G.; Li, Q.; Li, Z.J.; Fang, Y.*,

Nano Letters, 2010, 10 (5), 1864-1868

4   Generating electricity from biofluid with a nanowire-based biofuel cell for self-powered nanodevices, Pan, C.F.; Fang, Y.;Wu, H.; Ahmad, M.; Luo, Z.X.; Li, Q.; Xie, J.; Yan, X.; Wu, L.;Wang, Z.L.; Zhu, J.*,

Advanced Materials, 2010, 22 (47), 5388-5392

3   Fabrication of suspended graphene devices and their electronic properties, Li, Q.; Cheng, Z.G.; Li, Z.J.; Wang,Z.H.*; Fang, Y.*,

Chinese Physics B, 2010, 19 (9), 097307

2009

2   Real-time study of graphene's phase transition in polymer matrices, Li, Q.; Li, Z.J.; Chen, M.R.; Fang, Y.*,

Nano Letters, 2009, 9 (5), 2129-2132.

1   Spontaneous formation of nanostructures in graphene, Li, Z.J.; Cheng, Z.G.; Wang, R.; Li, Q.; Fang, Y.*,

Nano Letters, 2009, 9 (10), 3599-3602.

【科研项目】

Start-up Grant for QiLu Young Scholars 2016-2021

National Natural Science Foundation of China (Young Scholars Program) 2018.1-2020.12

Shandong Provincial Natural Science Foundation (General Program), 2017.8-2020.6

【科研成果】

【联合培养情况】

We have collaborations with domestic groups (e.g., National Center for Nanoscience and Technology, Beijing Institute of Nanoenergy and Nanosystems etc) and international groups (e.g., Aarhus University, University of Oxford, Palacky University etc).

【拟招收研究生情况】