劉智波

博士，南開大學物理科學學院教授，博士生導師。2009年入選教育部“新世紀優秀人才支持計畫”。2010年獲“饒毓泰基礎光學獎”優秀獎和南開大學捷成獎教金。2011年獲“天津市新長征突擊手”榮譽稱號。2013年獲天津市青年科技獎，同年入選“南開大學百名青年學科帶頭人”。已發表SCI論文100餘篇，包括多篇Adv. Mater.、Nano Lett.、Appl. Phys. Lett.、Opt. Lett.、Opt. Express等，論文被他引達2000餘次。

工作經歷：2004.7-2008.12 南開大學物理科學學院 講師 2009.1-2013.12 南開大學物理科學學院 副教授 2014.1 南開大學物理科學學院 教授 2010.8-2011.8 香港理工大學電機工程系 博士後

教育經歷：1997.9-2001.6 南開大學物理科學學院 本科 2001.9-2006.6 南開大學物理科學學院 博士

1. 石墨烯轉移與微結構：利用PET/矽橡膠轉移CVD石墨烯，選擇性定點轉移機械剝離石墨烯，角度精確可控制備扭曲雙層和三層石墨烯等。

2. 石墨烯光學及其套用，包括基於石墨烯光電探測，用於生物化學檢測的石墨烯光學感測，石墨烯光調製等

3. 基於二維材料飽和吸收體的超快雷射產生

4. 新型碳結構材料光學非線性

（1）天津市自然科學基金，石墨烯寬頻光學非線性及其套用研究、2013/04-2016/03；

（2）國家自然科學基金面上項目，碳基納米材料超快光學非線性及其非線性光學顯微成像研究、2012/01-2015/12；

（3）國家重大科學研究計畫，關聯光子學微結構的非線性光學特性與調控機理研究、2010/01-2014/12、參與；

（4）教育部新世紀優秀人才支持計畫，2010/01- 2012/12；

（5）國家自然科學基金面上項目，碳結構及其雜化材料的光學非線性和超快特性、2010/01-2012/12；

（6）天津市自然科學基金，碳基材料複合物光學非線性及其套用研究、2009/04-2012/03；

（7）教育部重點項目，石墨烯材料光學非線性及其機制研究、2009/01-2011/12；

（8）國家自然科學基金青年基金，有機超分子材料的光學非線性調控及其套用研究、2008/01-2010/12；

1.Xu-Dong Chen, Wei Xin,Wen-Shuai Jiang, Zhi-Bo Liu*, Yongsheng Chen, and Jian-Guo Tian*,High-Precision Twist-Controlled Bilayer and Trilayer Graphene. Advanced Materials, doi:10.1002/adma.201505129(2016).

2.XingF, Meng G-X, Zhang Q, Pan L-T, Wang P, Liu Z-B*, Jiang W-S, Chen Y, and TianJ-G, Ultrasensitive Flow Sensing of a Single Cell Using Graphene-Based OpticalSensors. Nano Letters, 2014.14,3563-3569.

3.XuY, Liu Z, Zhang X, Wang Y, Tian J, Huang Y, Ma Y, Zhang X, and Chen Y, AGraphene Hybrid Material Covalently Functionalized with Porphyrin: Synthesisand Optical Limiting Property. AdvancedMaterials, 2009. 21,1275

4.LiuZ-B, Tian J-G, Guo Z, Ren D-M, Du F, Zheng J-Y, and Chen Y-S, Enhanced opticallimiting effects in porphyrin-covalently functionalized single-walled carbonnanotubes. Advanced Materials, 2008.20,511

5.Chen X-D, Liu Z-B*, JiangW-S, Yan X-Q, Xing F, Wang P, Chen Y, and Tian J-G, The selective transfer ofpatterned graphene. Scientific Reports,2013. 3.

6. ChenX-D, Liu Z-B*, Zheng C-Y, Xing F, Yan X-Q, Chen Y, and Tian J-G, High-qualityand efficient transfer of large-area graphene films onto different substrates. Carbon, 2013. 56,271-278.

7.XingF, Liu Z-B*, Deng Z-C, Kong X-T, Yan X-Q, Chen X-D, Ye Q, Zhang C-P, Chen Y-S,and Tian J-G, Sensitive Real-Time Monitoring of Refractive Indexes Using aNovel Graphene-Based Optical Sensor.Scientific Reports, 2012. 2.

1.Wen-Shuai, J., Zhi-Bo, L., Wei, X., Xu-Dong,C. & Jian-Guo, T. Reduced graphene oxide nanoshells for flexible andstretchable conductors. Nanotechnology 27, 095301 (2016).

2.TengfeiZhang†, Huicong Chang†, Yingpeng Wu†, Peishuang Xiao, Ningbo Yi, Yanhong Lu,Yanfeng Ma, Yi Huang, Kai Zhao, Xiaoqing Yan, Zhibo Liu, Jianguo Tian andYongsheng Chen*, Macroscopic and direct light propulsion of bulk graphenematerial, Nature Photon., 2015,DOI:10.1038/nphoton.2015.105.

3.Zhao H, GuX, Yan X, Liu Z, Chen Q, and Bian Z, Linear and Nonlinear Optical Properties ofmeso-Tetra(4-ferrocenylcarbonyloxyphenyl)porphyrin and Its Zinc(II) Complex. Chinese Journalof Organic Chemistry, 2014. 34,371-375.

4.Xing F,Meng G-X, Zhang Q, Pan L-T, Wang P, Liu Z-B*, Jiang W-S, Chen Y, and Tian J-G,Ultrasensitive Flow Sensing of a Single Cell Using Graphene-Based OpticalSensors.Nano Letters, 2014. 14,3563-3569.

5.Xin W, LiuZ-B*, Sheng Q-W, Feng M, Huang L-G, Wang P, Jiang W-S, Xing F, Liu Y-G, andTian J-G, Flexible graphene saturable absorber on two-layer structure fortunable mode-locked soliton fiber laser. Optics Express, 2014. 22,10239-10247.

6.He X, WangD N, and Liu Z-B, Pulse-Width Tuning in a Passively Mode-Locked Fiber LaserWith Graphene Saturable Absorber. Ieee Photonics Technology Letters,2014. 26,360-363.

7.Zhao X,Yan X-Q, Ma Q, Yao J, Zhang X-L, Liu Z-B, and Tian J-G, Nonlinear optical andoptical limiting properties of graphene hybrids covalently functionalized byphthalocyanine. Chemical Physics Letters, 2013. 577,62-67.

8.Zhang X-L,Liu Z-B, Zhao X, Yan X-Q, Li X-C, and Tian J-G, Optical limiting effect andultrafast saturable absorption in a solid PMMA composite containingporphyrin-covalently functionalized multi-walled carbon nanotubes. Optics Express,2013. 21,25277-25284.

9.Zhang X-L,Liu Z-B, Li X-C, Ma Q, Chen X-D, Tian J-G, Xu Y-F, and Chen Y-S, Transientthermal effect, nonlinear refraction and nonlinear absorption properties ofgraphene oxide sheets in dispersion. Optics Express, 2013. 21,7511-7520.

10.Zhang X-L,Chen X-D, Li X-C, Ying C-F, Liu Z-B, and Tian J-G, Enhanced reverse saturableabsorption and optical limiting properties in a protonated water-solubleporphyrin. Journal of Optics, 2013. 15.

11.Zhang Q,Wan X, Xing F, Huang L, Long G, Yi N, Ni W, Liu Z, Tian J, and Chen Y,Solution-processable graphene mesh transparent electrodes for organic solarcells. Nano Research, 2013. 6,478-484.

12.Ye Q, WangJ, Liu Z*, Deng Z-C, Kong X-T, Xing F, Chen X-D, Zhou W-Y, Zhang C-P, and TianJ-G, Polarization-dependent optical absorption of graphene under total internalreflection. Applied Physics Letters, 2013. 102.

13.Xing F,Chen X-D, Liu Z-B*, Zhang Q, Yan X-Q, Chen Y, and Tian J-G, Transparent andflexible multi-layer films with graphene recording layers for optical datastorage. Applied Physics Letters, 2013. 102.

14.Wang P,Liu Z-B*, Chen X-D, Xing F, Jiang W-S, Dong B, Xin W, and Tian J-G, Accuratelayers determination of graphene on transparent substrate based onpolarization-sensitive absorption effect. Applied Physics Letters,2013. 103.

15.Sheng Q,Feng M, Xin W, Han T, Liu Y, Liu Z*, and Tian J, Actively manipulation ofoperation states in passively pulsed fiber lasers by using graphene saturableabsorber on microfiber. Optics Express, 2013. 21,14859-14866.

16.Peng C,Xiong Y, Liu Z, Zhang F, Ou E, Qian J, Xiong Y, and Xu W, Bulkfunctionalization of graphene using diazonium compounds and amide reaction. AppliedSurface Science, 2013. 280,914-919.

17.Liu Z-B,Guo Z, Zhang X-L, Zheng J-Y, and Tian J-G, Increased optical nonlinearities ofmulti-walled carbon nanotubes covalently functionalized with porphyrin. Carbon,2013. 51,419-426.

18.Liu Z-B,Feng M, Jiang W-S, Xin W, Wang P, Sheng Q-W, Liu Y-G, Wang D N, Zhou W-Y, andTian J-G, Broadband all-optical modulation using a graphene-covered-microfiber.Laser Physics Letters, 2013. 10.

19.He X, LiuZ-b, Wang D N, Yang M, Hu T Y, and Tian J-G, Saturable Absorber Based onGraphene-Covered-Microfiber. Ieee Photonics Technology Letters,2013. 25,1392-1394.

20.Chen X-D,Liu Z-B*, Zheng C-Y, Xing F, Yan X-Q, Chen Y, and Tian J-G, High-quality and efficienttransfer of large-area graphene films onto different substrates. Carbon,2013. 56,271-278.

21.Chen X-D,Liu Z-B*, Jiang W-S, Yan X-Q, Xing F, Wang P, Chen Y, and Tian J-G, Theselective transfer of patterned graphene. Scientific Reports,2013. 3.

22.Zhao H,Liu Z, Zhang X, Tian J, Chen C, Zhu Y, and Zheng J, Synthesis, Photophysicaland Electrochemical Properties of Amide-Linked Phthalocyanine-Fullerene Dyad. ChineseJournal of Chemistry, 2012. 30,1766-1770.

23.Yan X-Q,Liu Z-B*, Chen Y-S, and Tian J-G, Polarization characteristics of nonlinearrefraction and nonlinear scattering in several solvents. Journal of theOptical Society of America B-Optical Physics, 2012. 29,2721-2728.

24.Xing F,Liu Z-B*, Deng Z-C, Kong X-T, Yan X-Q, Chen X-D, Ye Q, Zhang C-P, Chen Y-S, andTian J-G, Sensitive Real-Time Monitoring of Refractive Indexes Using a NovelGraphene-Based Optical Sensor. Scientific Reports, 2012. 2.

25.Liu Z,Zhang X, Yan X, Chen Y, and Tian J, Nonlinear optical properties ofgraphene-based materials.Chinese Science Bulletin, 2012. 57,2971-2982.

26.Liu Y-L,Liu H-L, Liu Z-B, Zang W-P, and Tian J-G, Effects of solvent on nonlinearabsorption properties of tetraphenylporphyrin compounds in the nanosecondregime. Optik, 2012. 123,1015-1018.

27.He X, LiuZ-b, and Wang D N, Wavelength-tunable, passively mode-locked fiber laser basedon graphene and chirped fiber Bragg grating. Optics Letters,2012. 37,2394-2396.

28.Cao Y, JinW, Ho L H, and Liu Z, Evanescent-wave photoacoustic spectroscopy with opticalmicro/nano fibers. Optics Letters, 2012. 37,214-216.

29.Zhao X,Liu Z-B*, Yan W-B, Wu Y, Zhang X-L, Chen Y, and Tian J-G, Ultrafast carrierdynamics and saturable absorption of solution-processable few-layered grapheneoxide. Applied Physics Letters, 2011. 98.

30.Zhang X-L,Zhao X, Liu Z-B*, Shi S, Zhou W-Y, Tian J-G, Xu Y-F, and Chen Y-S, Nonlinearoptical and optical limiting properties of graphene oxide-Fe3O4 hybridmaterial. Journal of Optics, 2011. 13.

31.Yan X-Q,Zhang X-L, Shi S, Liu Z-B*, and Tian J-G, Third-order nonlinear susceptibilitytensor elements of CS2 at femtosecond time scale. Optics Express,2011. 19,5559-5564.

32.Liu Z-B,Zhao X, Zhang X-L, Yan X-Q, Wu Y-P, Chen Y-S, and Tian J-G, Ultrafast Dynamicsand Nonlinear Optical Responses from sp(2)- and sp(3)-Hybridized Domains inGraphene Oxide. Journal of Physical Chemistry Letters,2011. 2,1972-1977.

33.Liu Z-B,Shi S, Yan X-Q, Zhou W-Y, and Tian J-G, Discriminating thermal effect innonlinear-ellipse-rotation-modified Z-scan measurements. Optics Letters,2011. 36,2086-2088.

34.Liu Z-B,Li L, Xu Y-F, Liang J-J, Zhao X, Chen S-Q, Chen Y-S, and Tian J-G, Directpatterning on reduced graphene oxide nanosheets using femtosecond laser pulses.Journal of Optics, 2011. 13.

35.Liu Z-B,He X, and Wang D N, Passively mode-locked fiber laser based on a hollow-corephotonic crystal fiber filled with few-layered graphene oxide solution. Optics Letters,2011. 36,3024-3026.

36.Chen S Q,Zhou W Y, Li Z B, Liu Z B, and Tian J G, Study on Z-scan characteristics forlight-tunnelling heterostructures composed of one-dimensional photonic band gapmaterial and metallic film. Journal of Electromagnetic Waves and Applications,2011.25,97-110.

37.zhang X-L, Liu Z-B*, Zhao X, Zhou W-Y, andTian J-G, Nonlinear optical properties of hydroxyl groups modified multi-walledcarbon nanotubes. Chemical Physics Letters, 2010. 494,75-79.

38.Yan X-Q,Liu Z-B*, Zhang X-L, Zang W-P, and Tian J-G, Modified elliptically polarizedlight Z-scan method for studying third-order nonlinear susceptibilitycomponents. Optics Express, 2010. 18,10270-10281.

39.Yan X-Q,Liu Z-B, Shi S, Zhou W-Y, and Tian J-G, Analysis on the origin of the ultrafastoptical nonlinearity of carbon disulfide around 800 nm. Optics Express,2010. 18,26169-26174.

40.Liu Y,Zang W, Liu Z, Qi S, and Tian J, Study on Z-scan characteristics of multilayernonlinear media using coordinate transformation method. Optik,2010. 121,2172-2175.

41.Liang J,Chen Y, Xu Y, Liu Z, Zhang L, Zhao X, Zhang X, Tian J, Huang Y, Ma Y, and Li F,Toward All-Carbon Electronics: Fabrication of Graphene-Based FlexibleElectronic Circuits and Memory Cards Using Maskless Laser Direct Writing. Acs AppliedMaterials & Interfaces, 2010. 2,3310-3317.

42.Zhang X-L,Zhao X, Liu Z-B, Liu Y-S, Chen Y-S, and Tian J-G, Enhanced nonlinear opticalproperties of graphene-oligothiophene hybrid material. Optics Express,2009. 17,23959-23964.

43.Zhang X,Liu Z, Huang Y, Wan X, Tian J, Ma Y, and Chen Y, Synthesis, Characterizationand Nonlinear Optical Property of Graphene-C(60) Hybrid. Journal ofNanoscience and Nanotechnology, 2009. 9,5752-5756.

44.Yan X-Q,Liu Z-B, Zhang X-L, Zhou W-Y, and Tian J-G, Polarization dependence of Z-scanmeasurement: theory and experiment. Optics Express, 2009. 17,6397-6406.

45.Xu Y, LiuZ, Zhang X, Wang Y, Tian J, Huang Y, Ma Y, Zhang X, and Chen Y, A GrapheneHybrid Material Covalently Functionalized with Porphyrin: Synthesis and OpticalLimiting Property. Advanced Materials, 2009. 21,1275-+.

46.Lv X,Huang Y, Liu Z, Tian J, Wang Y, Ma Y, Liang J, Fu S, Wan X, and Chen Y,Photoconductivity of Bulk-Film-Based Graphene Sheets. Small,2009. 5,1682-1687.

47.Liu Z-B,Xu Y-F, Zhang X-Y, Zhang X-L, Chen Y-S, and Tian J-G, Porphyrin and FullereneCovalently Functionalized Graphene Hybrid Materials with Large NonlinearOptical Properties. Journal of Physical Chemistry B, 2009.113,9681-9686.

48.Liu Z,Wang Y, Zhang X, Xu Y, Chen Y, and Tian J, Nonlinear optical properties ofgraphene oxide in nanosecond and picosecond regimes. AppliedPhysics Letters, 2009. 94.

49.Liu Y,Zhou J, Zhang X, Liu Z, Wan X, Tian J, Wang T, and Chen Y, Synthesis,characterization and optical limiting property of covalentlyoligothiophene-functionalized graphene material. Carbon, 2009. 47,3113-3121.

50.Jing C, Xu X, Zhang X, Liu Z, and Chu J, Insitu synthesis and third-order nonlinear optical properties of CdS/PVPnanocomposite films. Journal of Physics D-Applied Physics,2009. 42.

51.Liu Z-B,Zhou W-Y, Tian J-G, Guo Z, Ren D-M, and Zheng J-Y, Study on Optical Nonlinearitiesof Porphyrin Covalently Functionalized Single-Wall Carbon Nanotubes,in NanophotonicMaterials V, Z. Gaburro, S. Cabrini, and D. Talapin, Editors. 2008.

52.Liu Z-B,Yan X-Q, Zhou W-Y, and Tian J-G, Evolutions of polarization and nonlinearitiesin an isotropic nonlinear medium.Optics Express, 2008. 16,8144-8149.

53.Liu Z-B,Tian J-G, Guo Z, Ren D-M, Du F, Zheng J-Y, and Chen Y-S, Enhanced opticallimiting effects in porphyrin-covalently functionalized single-walled carbonnanotubes. Advanced Materials, 2008. 20,511-+.

54.Liu Y-L,Liu Z-B, Tian J-G, Zhu Y, and Zheng J-Y, Effects of metallization andbromination on nonlinear optical properties of diphenylporphyrins.OpticsCommunications, 2008. 281,776-781.

55.Zhu Y, ZhuY-Z, Song H-B, Zheng J-Y, Liu Z-B, and Tian J-G, Synthesis and crystalstructure of 21,23-dithiaporphyrins and their nonlinear optical activities. TetrahedronLetters, 2007. 48,5687-5691.

56.Zhang B,Liu Z-B, Chen S-Q, Zhou W-Y, Zang W-P, Tian J-G, Luo D-B, and Zhu Z-A, Reversesaturable absorption of porphyrin-like complexes. Acta PhysicaSinica, 2007. 56,5252-5257.

57.Liu Z-B,Zhu Y, Zhu Y-Z, Tian J-G, and Zheng J-Y, Study on nonlinear spectroscopy oftetraphenylporphyrin and dithiaporphyrin diacids. Journal ofPhysical Chemistry B, 2007. 111,14136-14142.

58.Liu Z-B,Yan X-Q, Tian J-G, Zhou W-Y, and Zang W-P, Nonlinear ellipse rotation modifiedZ-scan measurements of third-order nonlinear susceptibility tensor. Optics Express,2007. 15,13351-13359.

59.Liu Z-B,Liu Y-L, Zhang B, Zhou W-Y, Tian J-G, Zang W-P, and Zhang C-P, Nonlinearabsorption and optical limiting properties of carbon disulfide in ashort-wavelength region. Journal of the Optical Society of America B-OpticalPhysics, 2007. 24,1101-1104.

60.Chen S-Q,Zang W-P, Liu Z-B, Zhou W-Y, Kong Y-F, and Tian J-G, Method for measurements ofsecond-order nonlinear optical coefficient based on Z-scan. Optics Communications,2007. 274,213-217.

61.Zang W P,Tian J G, Liu Z B, Zhou W Y, Song F, and Zhang C P, High-accuracyfinite-difference beam-propagation method for cylindrical geometry. AppliedPhysics B-Lasers and Optics, 2006. 82,99-104.

62.Wang S-J,Zhang Y-H, Ruan W-J, Luo D-B, Zhu Z-A, Tian J-G, and Liu Z-B, Studies on thesynthesis and characterization of a novel chiral metalloporphyrin. ActaPhysico-Chimica Sinica, 2006. 22,981-986.

63.Sun X-B,Ren Q, Wang X-Q, Zhang G-H, Yang H-L, Feng L, Xu D, and Liu Z-B, Nonlinear opticalproperties of (CH3)(4)N Au(dmit)(2) using Z-scan technique. ChinesePhysics, 2006. 15,2618-2622.

64.Luo D B,Liu M, Wang S J, Ruan W J, Zhang Y H, Zhu Z A, Liu Z B, and Tian J G, Tailedtyrosine-linked Zn porphyrin: Synthesis, nonlinear optical and thermodynamicproperties. Chinese Journal of Inorganic Chemistry, 2006. 22,469-476.

65.Liu Z-B,Zhu Y-Z, Zhu Y, Chen S-Q, Zheng J-Y, and Tian J-G, Nonlinear absorption andnonlinear refraction of self-assembled porphyrins. Journal ofPhysical Chemistry B, 2006. 110,15140-15145.

66.Liu Z B,Tian J G, Zheng J Y, Li Z Y, Chen S Q, and Zhu Y, Active tuning of nonlinearabsorption in a supramolecular zinc diphenylporphyrin-pyridine system. Optics Express,2006. 14,2770-2775.

67.Li Z-B,Tian J-G, Zhou W-Y, Liu Z-B, and Zang W-P, Effect of groove periodicity on theenhanced transmission through a single subwavelength slit. Journal of theOptical Society of America B-Optical Physics, 2006. 23,1517-1523.

68.Li Z B,Tian J G, Zhou W Y, Liu Z B, Zang W P, and Zhang C P, Highly directionalemission from a subwavelength slit in metal-dielectric layered films.ChinesePhysics Letters, 2006. 23,1207-1210.

69.Guo Z, DuF, Ren D, Chen Y, Zheng J, Liu Z, and Tian J, Covalently porphyrin-functionalizedsingle-walled carbon nanotubes: a novel photoactive and optical limitingdonor-acceptor nanohybrid. Journal of Materials Chemistry, 2006. 16,3021-3030.

70.Chen S Q,Liu Z B, Zang W P, Tian J G, Zhou W Y, and Zhang C P, Study on Z-scancharacteristics for large optical nonlinear phase shift. Acta PhysicaSinica, 2006. 55,1211-1217.

71.Zang W P,Tian J G, Liu Z B, Zhou W Y, Song F, and Zhang C P, Coordinate transformationand coordinate mapping for numerical simulation of Z-scan measurements. OpticsCommunications, 2005. 244,71-77.

72.Zang W P,Tian J G, Liu Z B, Zhou W Y, Song F, and Zhang C P, Effect of coupling betweenlinear absorption and nonlinear absorption on Z-scan measurements.ChinesePhysics, 2005. 14,546-550.

73.Zang W P,Tian J G, Liu Z B, Zhou W Y, Song F, and Zhang C P, Modified localone-dimensional beam-propagation method based on the Douglas scheme. OpticsCommunications, 2005. 256,210-215.

74.Yang X J,Zang W P, Tian J G, Liu Z B, Zhou W Y, Zhang C P, and Zhang G Y, Z scananalysis for near top-hat beams. Acta Physica Sinica, 2005. 54,2735-2738.

75.Liu Z B,Zhou W Y, Tian J G, Chen S Q, Zang W P, Song F, and Zhang C P, Characteristicsof co-existence of third-order and transient thermally induced opticalnonlinearities in nanosecond regime. Optics Communications, 2005. 245,377-382.

76.Li Z B,Tian J G, Liu Z B, Zhou W Y, and Zhang C P, Enhanced light transmission througha single subwavelength aperture in layered films consisting of metal anddielectric. Optics Express, 2005. 13,9071-9077.

77.Chen S Q,Liu Z B, Zang W P, Tian J G, Zhou W Y, Song F, and Zhang C P, Study on Z-scancharacteristics for a large nonlinear phase shift. Journal of theOptical Society of America B-Optical Physics, 2005. 22,1911-1916.

78.Zhou W Y,Tian J G, Zang W P, Liu Z B, Zhang C P, and Zhang G Y, Transient thermallyinduced optical nonlinearities in Kerr media. Acta Physica Sinica,2004. 53,620-625.

79.Zang W P,Tian J G, Liu Z B, Zhou W Y, Song F, Zhang C P, and Xu J J, Accuratedetermination of nonlinear refraction and nonlinear absorption by a singleZ-scan method. Journal of the Optical Society of America B-OpticalPhysics, 2004. 21,349-356.

80.Zang W P,Tian J G, Liu Z B, Zhou W Y, Song F, and Zhang C P, Analytic solutions toZ-scan characteristics of thick media with nonlinear refraction and nonlinearabsorption.Journal of the Optical Society of America B-Optical Physics,2004. 21,63-66.

81.Zang W P,Tian J G, Liu Z B, Zhou W Y, Song F, and Zhang C P, Coordinate transformationfor fast simulation of Z-scan measurements. Chinese Physics Letters,2004. 21,662-665.

82.Zang W P,Tian J G, Liu Z B, Zhou W Y, Song F, and Zhang C P, Local one-dimensionalapproximation for fast simulation of Z-scan measurements with an arbitrarybeam. Applied Optics, 2004. 43,4408-4414.

83.Zang W P,Tian J G, Liu Z B, Zhou W Y, Song F, and Xu J J, Analysis of Z-scan of thickmedia with nonlinear refraction and absorption for elliptic Gaussian beam byvariational approach. Optics Communications, 2004. 237,221-227.

84.Zang W P,Tian J G, Liu Z B, Zhou W Y, Mei C, Song F, and Zhang C F, Analysis on Z-scancharacteristics of cascade structure. Acta Physica Sinica, 2004. 53,1820-1825.

85.Zang W P,Liu Z B, Zhou W Y, Tian J G, Zhang C P, and Zhang G Y, Analysis of nonlinearoptical absorption in thick optically nonlinear media. Journal ofInfrared and Millimeter Waves, 2004. 23,229-232.

86.Liu Z B,Tian J G, Zang W P, Zhou W Y, Song F, Zhang C P, Zheng J Y, and Xu H, Flexiblealteration of optical nonlinearities of iodine charge-transfer complexes insolutions. Optics Letters, 2004. 29,1099-1101.

87.Chen S Q,Liu Z B, Zhou W Y, Tian J G, Zang W P, Song F, and Zhang C P, The influence ofpulse width on transient thermally induced optical nonlinearities in a Kerrnonlinear medium. Acta Physica Sinica, 2004. 53,3577-3582.

88.Zang W P,Tian J G, Liu Z B, Zhou W Y, Zhang C P, and Zhang G Y, Variational analysis ofz scan of thick medium with an elliptic Gaussian beam. Applied Optics,2003. 42,2219-2225.

89.Zang W P,Tian J G, Liu Z B, Zhou W Y, Zhang C P, and Zhang G Y, Comparison of thesolutions from a novel variational method with numerical results for the studyof beam propagation in a Kerr medium with nonlinear absorption. Optics Letters,2003. 28,722-724.

90.Zang W P,Tian J G, Liu Z B, Zhou W Y, Zhang C P, and Zhang G Y, Study on Z-scancharacteristics of cascaded nonlinear media. Applied Physics B-Lasers andOptics, 2003. 77,529-533.

91.Zang W P,Tian J G, Liu Z B, Zhou W Y, Yang X J, Zhang C P, and Zhang G Y, Z-scancharacteristics of cascading nonlinear media. Chinese Physics Letters,2003. 20,1067-1069.

92.Liu Z B,Zang W P, Tian J G, Zhou W Y, Zhang C P, and Zhang G Y, Analysis of Z-scan ofthick media with high-order nonlinearity by variational approach. OpticsCommunications, 2003. 219,411-419.

93.Liu Z B,Tian J G, Zang W P, Zhou W Y, Zhang C P, Zheng J Y, Zhou Y C, and Xu H, Largeenhancement of optical nonlinearities of new organophosphorus fullerenederivative. Chinese Physics Letters, 2003. 20,1744-1747.

94.Liu Z B,Tian J G, Zang W P, Zhou W Y, Zhang C P, Zheng J Y, Zhou Y C, and Xu H, Largeoptical nonlinearities of new organophosphorus fullerene derivatives.AppliedOptics, 2003. 42,7072-7076.

95.Liu Z B,Tian J G, Zang W P, Zhou W Y, Zhang C P, and Zhang G Y, Influence of nonlinearabsorption on Z-scan measurements of nonlinear refraction. ChinesePhysics Letters, 2003. 20,509-512.

2013年，入選南開大學百名青年學科帶頭人培養計畫；

2013年，獲“天津市青年科技獎”；

2011年，獲“天津市新長征突擊手”榮譽稱號；

2010年，獲得“饒毓泰基礎光學獎”優秀獎；

2010年，獲南開大學捷成獎教金；

2009年，入選教育部新世紀優秀人才支持計畫