张桂玲

发布时间:2021-03-03

张桂玲 教授,博士生导师;

电话:0451-86392701

电子信箱:guiling-002@163.com

学习经历:

1989-1993年,哈尔滨师范大学理学学士(化学)
 1993-1996
年,哈尔滨师范大学理学硕士(物理化学)

1999-2002年,哈尔滨工业大学工学博士(材料物理与化学)

2002-2004年,南京大学 博士后(物理化学)

2010-2011年,美国University of Nebraska-Lincoln大学(访问学者)

主要社会兼职 :

黑龙江省化学会副理事长

主要研究方向:

功能材料方面的研究工作,主要包括:光电磁纳米材料的实验合成、表征欲测试,探讨光电磁纳米材料的结构与性能的关系。

教学科研获奖:

1.张桂玲1/15,基于“学生为中心”理念的人才培养范式的构建与实践,黑龙江省教学成果一等奖,2019.

2.张桂玲1/5σ-共轭、π-共轭及σ-π共轭体系光电性质的结构与性能关系研究, 黑龙江省科技进步二等奖, 2013.

3.张桂玲2/4,几类重要的小分子及大分子的结构与性能研究, 黑龙江省科技进步三等奖, 2010.

4.张桂玲4/5,人工结构体系的磁光、电光性质研究, 黑龙江省科技进步二等奖, 2009.

5.张桂玲1/1,南京大学优秀博士后奖, 2004

6.张桂玲2/5BN环及其层间化合物和纳米管的理论研究,黑龙江省高校科技进步一等奖, 2004.

7.张桂玲2/5,含氮无机环电子结构与成键性的量子化学研究, 黑龙江省科技进步三等奖, 2003.

科研项目:

1.  过渡金属络合物功能化修饰二维金属硫属化合物及其电磁调控研究(1/9),57万,(No.51973046,2020.1-2023.12, 国家自然科学基金资助,主持人。

2.  聚硅烷/MoS2导电材料的合成、表征及结构与性能关系研究(1/9),85万,(No. 51473042)2015.1-2018.12,国家自然科学基金资助,主持人。

3.  聚硅烷/碳纳米管导电高分子材料合成、表征及结构与性能关系研究(1/5),38万(No. 51073048) , 2011.1-2013.12, 国家自然科学基金,主持人。

4.  含硅锗元素导电高分子材料的结构与性能研究(1/6),11万,(No.50743013)2008.1-2008.12国家自然科学基金,主持人。

5.  有机聚合物和固体导电机理的理论研究,20万,6万,(No.90303020),国家自然科学基金(1/4),2004.1-2006.12,主持人。

6.  金属茂功能化修饰二维金属硫属化合物及其电磁调控研究(1/6) ,No. B2018007)黑龙江省自然科学基金,2018.7-2021.7,主持人。

7.  聚硅烷/碳纳米管导电高分子材料合成、表征及结构与性能关系研究(1/5),7万,(No.901452),哈市优秀学科带头人基金,2013.1-2015.12,主持人。

8.  有机聚合物和固体导电机理的理论研究(1/6),4万,(No.1151G019),省教育厅骨干教师项目,2006.1-2008.12,主持人。

9.  含硅锗导电高分子材料的理论与实验研究(1/6),5万,(No.2007RFXXG027),市优秀学科带头人基金,2007.1-2008.12。,主持人。

10.茂化合物功能化修饰二维金属硫属化合物及其电磁调控研究(1/7),(No.2017RAXXJ002),市优秀学科带头人基金,2017.1-2020.12,主持人。

11.硼氮纳米管电子结构的研究(1/4),1万,(No.10531073),省教育厅项目,2003.1-2005.12。,主持人。

12.聚硅烷/碳纳米管导电高分子材料合成、表征及结构与性能关系研究(1/5),6万, (No.B201102),省自然科学基金,2012.1-2015.12,主持人。

13.超分子结构先进功能材料插层组装的基础研究(2/4),20万,(No.2004CB720602-1),国家973计划子课题,2005.1-2007.12

14.分子与固体表面相互作用的理论研究(2/4),25万,(No.20420150034),国家重大国际合作研究项目,2004.1-2006.12

15.交联聚乙烯绝缘材料直流介电性能改善及其机理研究(6/9),300万,(No.51337002),国家自然科学基金重点项目,2014.1-2019.12

16.σσ-π共轭高分子的导电机理研究(2/5),3万,(No.TA2005-15),省自然科学基金,2006.1-2008.12

17.硼氮纳米管的量子化学研究(2/5),3万, (No.B0207),省自然科学基金,2003.1-2005.12

18.导电高分子材料的结构与性能关系研究(2/4),3万,(No.B200605),省自然科学基金,2007.1-2009.12

授权发明专利:

1.   一种多壁碳纳米管-聚硅烷复合材料及其制备方法,ZL201210338403.8第二发明人

2.   一种聚硅烷/多壁碳纳米管复合材料的制备方法, ZL201210318626.8第三发明人

3.   一种叠氮化聚硅烷-多壁碳纳米管复合材料的制备方法, ZL201310058667.2第三发明人

4.   一种羟基化多壁碳纳米管-聚硅烷复合材料的制备方法, ZL201310059529.6第三发明人

5.   一种叠氮化聚硅烷的制备方法, ZL201310058668.7第四发明人

6.   一种碳纳米管-聚硅烷-有机高分子复合材料及其制备方法, 201410062162.8第四发明人

7.   溶胶法制备ZnO-膨胀石墨复合材料的方法,CN201510093072.X第四发明人

发表SCI收录论文:

1.     Wang Y.X., Jiang Y.J., Gao S.N., Yu H., Zhang G.,* Zhang F.Tuning magnetism and transport property of planar and wrinkled FePP@GNR hybrid materialsAIP Advances, 10, 04511212)页, 2020.

2.     Wang R., Zhu B., Zhang G.,* Gao Y.*Theoretical study of CO2 hydrogenation on Cu surfacesJournal of Molecular Modeling, 26, 1-10, 2020.

3.     Gao S., Yang Z., Wang Y., Zhang G.,* Hu Y.Spin-Polarized Transport and Optoelectronic Properties of a Novel-Designed Architecture with a Porphyrin-Based Wheel and Organometallic Multidecker Sandwich Complex-Based AxleJOM: the journal of the Minerals, Metals & Materials Society, 72, 3749-3159, 2020.

4.     Sun C., Wang Y., Yang Z., Shang Y., Zhang G.,* Hu Y. Transport and photoelectric properties of vertical black phosphorus heterojunctionsNew Journal of Chemistry, 44, 10507-10518, 2020.

5.     Wang Y., Gao S., Jiang Y., Yu H ., Zhang G.,* Shang Y. Novel magnetic and transport properties of FePP@GNP bilayers formed by Fe-porphyrin embedded into graphene nanopieces - ScienceDirectMaterials Chemistry and Physics, 254, 12354710)页, 2020.

6.     Yuan L., Li X., Zhu B., Zhang G.,* Gao Y.*Reshaping of Rh Nanoparticles in Operando ConditionsCatalysis Today, 350, 184-191页,2020.

7.     Yu J.,* Wang K., Qiao X., Tian J., Zhang G.,* Guo Q.Effects of Cr doping in δ -MoN: structural, magnetic and spin transport propertiesTheoretical Chemistry Accounts, 139, 1-9页,2020.

8.     Pan P., Zhang G.,* Shang Y., Yang Z.,* Hu Y.(Bz) n and (VBz) n covalent functionalized MoS2 monolayer: electronic and transport propertiesMaterials Research Express,6, 04630413)页, 2019.

9.     Han X., Yu Z.,* Li F., Shi W., Fu C., Yan H., Zhang G.*Two kanamycin electrochemical aptamer-based sensors using different signal transduction mechanisms: A comparison of electrochemical behavior and sensing performanceBioelectrochemistry, 129, 270-277, 2019.

10.   Sun C., Wang Y., Jiang Y., Yang Z., Zhang G.,* Hu Y.*Transport and photogalvanic properties of covalent functionalized monolayer black phosphorusNew Journal of Chemistry,43, 377-385, 2019.

11.   Wang Y., Sun C., Yang Z., Yu H., Pan P., Pei L., Zhang G.,* Hu Y.*Ab initio study of (FeCpVCp)n@MoS2 NT  A one-dimensional bimetallic sandwich molecular wire (FeCpVCp)n encapsulated into MoS2 nanotube - ScienceDirectChemical Physics, 523, 1-6, 2019.

12.   Wang Y., Yang Z., Pei L., Pan P., Yu H., Sun C., Jiang Y., Gao S., Zhang G.,* Hu Y.*Transport properties and photoresponse of a series of 2D transition metal dichalcogenide intercalation compoundsNew Journal of Chemistry, 43, 6523-6534, 2019.

13.   Pan P., Hu Y., Zhang G.,* Yang Z., Zeng X.*Hybrid nanobud-array structures (C24)n/MoS2 and (C24V)n/MoS2: two-dimensional half metallic and ferromagnetic materialsJournal of Materials Chemistry C, 6, 3373-3386, 2018.

14.   Liu X., Tan Y., Zhang G., Pei Y.*Electronic Structure and Spin Transport Properties of a New Class of Semiconductor Surface-Confined One-Dimensional Half-Metallic [Eu-(CnHn-2)](N) (n=7-9) Sandwich Compounds and Molecular Wires: First Principle StudiesThe journal of physical chemistry, C. Nanomaterials and interfaces, 122, 16168-16177, 2018.

15.   Li W.,* Xu X., Hu Y., Jiang Y., Yang L., Zhou X., Wang Q., Zhang G., Sun X., Tian W.Modulating the molecular third-order optical nonlinearity by curved surface of carbon skeleton  Molecular Physics, 116, 242-250, 2018.

16.   Wang Y., Qi R., Jiang Y., Sun C., Zhang G.,* Hu Y.,* Yang Z., Li W.*Transport and Photoelectric Properties of 2D Silicene/MX 2 (M = Mo, W; X = S, Se) HeterostructuresACS Omega,3, 13251-13262, 2018.

17.   Hu Y., Xu X., Jiang Y., Zhang G.,* Li W.,* Sun X., Tian W.,* Feng Y.Double-helix PnLin chains: novel potential nonlinear optical materialsPhysical Chemistry Chemical Physics, 20, 12618-12623, 2018.

18.   Jiang Y., Xu X., Hu Y., Zhang G.,* Liang Z., Li W.,* Jiang Y., Sun X.A computational study on a multimode spin conductance switching by coordination isomerization in organometallic single-molecule junctionsPhysical Chemistry Chemical Physics, 20, 20280-20286, 2018.

19.   Li J., Ruan L., Wu Z., Zhang G.,* Wang Y.*All-phosphorus flexible devices with non-collinear electrodes: a first principles studyPhysical Chemistry Chemical Physics, 20, 7167-7172, 2018.

20.   Sun C., Wang Y., Jiang Y., Yang Z., Zhang G.,* Hu Y.*Tunable transport and optoelectronic properties of monolayer black phosphorus by grafting PdCl2 quantum dotsRSC Adv., 8, 35226-35236, 2018.

21.   Li F., Yu Z.,* Han X., Shi W., Liu Y., Yan H., Zhang G.*A signal-on electrochemical aptasensor for highly sensitive and specific detection of kanamycin based on target-induced signaling probe shifting mechanismSensors and Actuators, 273, 480-487, 2018.

22.   Wang Y., Qi R., Jiang Y., Sun C., Zhang G.,* Hu Y.,* Yang Z., Li W.*Transport and Photoelectric Properties of 2D Silicene/MX 2 (M = Mo, W; X = S, Se) HeterostructuresACS Omega, 3, 13251-13262, 2018.

23.   Xu X., Tian R., Wang Q., Li W.,* Jiang Y., Zhou X., Zhang G., Liu L.,* Tian W.*Spatial manipulating spin-polarization and tunneling patterns in graphene spirals via periphery structural modificationCarbon: An International Journal Sponsored by the American Carbon Society, 113, 325-333, 2017.

24.   Gao L., Yang Z.,* Zhang G.A theoretical study for electronic and transport properties of covalent functionalized MoS2 monolayerChemical Physics, 490, 29-37, 2017.

25.   Qi R., Hu Y., Li W., Qi R., Hu Y., Li W., Wang Y., Li J., Zhang G.,* Shang Y., Yang Z. Effects of Intercalating Polysilanes into MoS2 Interlaminar Spaces on Transport PropertyNanoscience and Nanotechnology Letters, 9, 1-11, 2017.

26.   Sun Y., Sun C., Zhang G.,* Shang Y.Spin-polarized electronic and transport properties of [V(Bz)2]n@SWBNNT and [V(Bz)2]n@DWBNNT nanocablesOPTOELECTRONICS AND ADVANCED MATERIALS – RAPID COMMUNICATIONS, 11, 212-220, 2017.

27.   Yu X., Yu Z.,* Li F., Xu Y., He X., Xu L., Shi W.,Zhang G., Yan H.Effect of structure on sensing performance of a target induced signaling probe shifting DNA-based (TISPS-DNA) sensorBiosensors and Bioelectronics, 91, 817-823, 2017.

28.   Xu Y., Li F., Yu Z.,* Zhang G., Song Y., Yan H.* A dual-probe surface-co-immobilization-based electrochemical sensor for highly sensitive and tunable specific detection of a designated DNASensors & Actuators B Chemical, 239, 786-794, 2017.

29.   Xu X., Liu B., Zhao W., Jiang Y., Liu L.,* Li W.,* Zhang G., Tian W.*Mechanism of mechanically induced optoelectronic and spintronic phase transitions in 1D graphene spirals: insight into the role of interlayer couplingNanoscale, 9, 9693-9700, 2017.

30.   Wang Y., Zhang G.,* Yu H.Effect of S vacancies on the transport property of MoS2 nanotubes黑龙江大学自然科学学报, 34, 443-449, 2017.

31.   Xu Y., Li F., Yu Z., Zhang G.,* Song Y., Yan H.“A dual-probe surface-co-immobilization-based electrochemical sensor for highly sensitive and tunable specific detection of a designated DNA” Sensors and Actuators B, 239, 786-794, 2017.

32.    Zheng W., Li F., Yu Z., Zhang G.,* Chen Y., Li X., Yan H. “Performance assessment of solvent extraction coupled with gas chromatography-mass spectrometry for the analysis of volatile components from Syringa flowers” Anal. Methods, 8, 3115-3122, 2016.

33.   Yu S., Yao P., Liu J., Zhao B., Zhang G., Zhao M., Yu Z , Zhang X.* Diversity, Abundance, and Niche Differentiation of Ammonia-Oxidizing Prokaryotes in Mud Deposits of the Eastern China Marginal SeasFront Microbiol, 7, 137, 2016.

34.   裴蕾,张桂玲,*尚岩,孙翠翠,甘甜“硅桥调控的聚茂钒体系电子结构和输运性质”物理化学学报, 32, 24952502, 2016.

35.    Sun C., Zhang G.,* Shang Y., Yang Z., Sun X.* “Electronic and transport properties of PSi@MoS2 nanocables” Phys. Chem. Chem. Phys., 18, 4333-4344, 2016.

36.    Gan T., Zhang G.,* Shang Y., X., Yang Z., Sun X.* “Electronic and transport properties of the (VBz)n@MoS2NT nanocable” Phys. Chem. Chem. Phys., 18, 4385-4393, 2016.

37.    Pei L., Zhang G., Shang Y.,* Sun C., Gan T. “Silicon bridge-tuned electronic structures and transport properties of polymetallocenes” Acta Phys. -Chim. Sin., 32, 2495-2502, 2016.

38.    Liang X., Zhang G.,* Shang Y., Yang Z., Zeng X.* “Polysilane-wrapped carbon and boron-nitride nanotubes: effects of B or P doping on electron transportJ. Phys. Chem. C, 120, 5741-5754, 2016.

39.    Jing Z., Li C., Zhao H., Zhang G.,* Han B. “Doping effect of graphene nanoplatelets on electrical insulation properties of polyethylene: from macroscopic to molecular scale” Materials, 9, 680, 2016.

40.    Shang Y., Sun C., Zhang G.,* Yang Z., Wang X.* “Electronic and transport properties of [V(Bz)2]n@SWCNT and [V(Bz)2]n@DWCNT nanocables” RSC Adv., 6, 44041-44049, 2016.

41.    Li F., Xu Y., Yu X., Yu Z.,* He X., Ji H., Dong J., Song Y., Yan H., Zhang G.* “A signal onprotection-displacement-hybridization-based electrochemical hepatitis B virus gene sequence sensor with high sensitivity and peculiar adjustable specificity”Biosensors and Bioelectronics, 82, 212-216, 2016.

42.    Li F., Xu Y., Yu X., Yu Z., Ji H., Song Y., Yan H., Zhang G.* “Effect of the duplex length on the sensing performance of a displacement-based electrochemical nucleic acid sensor with an adjustable point mutation discrimination function” Sensors and Actuators B, 234, 648-657, 2016.

43.   Li S., Yang Z.,* Zhang G., Zeng X.*Electronic and transport properties of porous graphene sheets and nanoribbons: benzo-CMPs and BN codoped derivativesJournal of Materials Chemistry C, 3, 9637-9649, 2015.

44.    Liang X. Y., Zhang G., * Sun P., Shang Y., Yang Z.-D., Zeng X. C. “The electronic and transport properties of (VBz)n@CNT and (VBz)n@BNNT nanocablesJ. Mater. Chem. C, 3, 4039-4049, 2015.

45.    Li S., Yang Z.,* Zhang G., Zeng X. C.* “Electronicand transport properties of porous graphene sheets and nanoribbons: benzo-CMPs and BN codoped derivatives” J. Mater. Chem. C, 3, 9637-9650, 2015.

46.    Li F., Yu Z.,* Qu H., Zhang G., Yan H., Liu X., He X. “A highly sensitive and specific electrochemical sensing method for robust detection of Escherichia coli lac Z gene sequence” Biosensors and Bioelectronics, 68, 78-82, 2015.

47.    Li F., Yu Z.,* Xu Y., Ma H., Zhang G., Song Y., Yan H., He X. “Using the synergism strategy for highly sensitive and specific electrochemical sensing of Streptococcus pneumoniae Lyt-1 gene sequence” Analytica Chimica Acta, 886, 175e181, 2015.

48.    Li F., Yu Z.,* Yu X., Zhang G., Song Y.-B., Yan H., Li X.-X. “Using the synergism strategy of multi-redox-modified signaling probe, background suppression and large surface area electrode for highly sensitive and specific electrochemical sensing of specific DNA sequence” Sensors and Actuators B, 220, 1-4, 2015.

49.    Qin M., Shang Y., Wang X., Zhang G.* “Mg doping and native N vacancy effect on electronic and transport properties of AlN nanowires” Sci. China Tech. Sci., 58, 832-841, 2015.

50.   Xia X., Zhang H., Zhang G.* “Theoretical studies of structures and spectroscopic properties of [(tpy)(bpy)RuC≡CC6H4R]+ (tpy = 2,2′:6′,2-terpyridine, bpy = 2,2′-bipyridine; R = F, Cl, H, Me and OMe)” Sci. China. Chem., 57卷,725-733, 2014.

51.   Xia X., Zhang H., Zhang G.* “Theoretical studies on the structures and spectroscopic properties of N-heterocyclic carbene-pyridine-based ruthenium sensitizers” Chem. J. Chin. Univer.-Chin. 35卷,1000-1006, 2014.

52.    Zhang G., Sun P., Shang Y., Yang Z.-D., Zeng X. C.* “Electronic and transport properties of carbon and boron-nitride ferrocene nanopeapods”J. Mater. Chem. C, 2, 10017-10030, 2014.

53.   Zhang G., Zhou R., Zeng X. C.* “Carbon nanotube and boron nitride nanotube hosted C60-V nanopeapods” J. Mater. Chem. C, 1, 4518-4526, 2013.

54.   Zhang G., Chen K., Chen H.,* Yao J., Shaik S. “What factors control O2 binding and release thermodynamics in mononuclear ruthenium water oxidation catalysts? theoretical exploration” Inorg. Chem., 52, 5088-5096, 2013.

55.   Zhang G.,* Pei L., Yu J., Shang Y., Zhang H., Liu B. “Transport properties of nanowires with alternating organosilanylene and oligoethenylene units” Theor. Chem. Acc., 132, 1386(1-7), 2013.

56.   Yu J., Zhang G.,* Shang Y., Wang K., Zhang H., Sun M., Liu B., Zeng T. “Transport properties of CNT/oligosilane/CNT heterojunctions” Physica B, 410, 237-243, 2013.

57.   Chen K., Zhang G., Chen H.,* Yao J., Danovich D., Shaik S. “Spin-orbit coupling and outer-core correlation effects in Ir- and Pt-catalyzed C-H activation” J. Chem. Theory Comput., 8, 1641-1645, 2012.

58.   Gao Y., Shao N., Zhou R., Zhang G., Zeng X. C.* “[CTi72+]: Heptacoordinate carbon motif?” J. Phys. Chem. Lett., 3, 2264-2268, 2012.

59.   Zhang G., Zhou R., Gao Y., Zeng X. C.* “Silicon-containing multidecker organometallic complexes and nanowires: a density functional theory study” J. Phys. Chem. Lett., 3, 151-156, 2012.

60.   Zhang G.,* Li D., Shang Y., Zhang H., Sun M., Liu, B., Li Z. “Transport properties of double quantum dots formed by ferrocene units” J. Phys. Chem. C, 115, 5257-5264, 2011.

61.   Zhang G.,* Yuan H., Zhang H., Shang Y., Sun M. “Theoretical studies on the transport property of oligosilane with p-n junction” Inter. J. Quan. Chem., 111, 4214-4223, 2011.

62.   Yu J., Zhang G.,* Shang Y., Zhang H., Yang L., Zeng T., Liu B., Li Z. “Rare earth element doping effect on the bonding and the transport property of δ-MoN” Theor. Chem. Acc.,128, 285-293, 2011.

63.   Shang Y., Yang L., Zhang G.,* Zhang H., Liu B. “Theoretical studies on organosilicon oligomers containing ethenylene moieties” J. Polym. Res., 18, 1889-1902, 2011.

64.   Yang L., Shang Y., Zhang H., Sun M., Liu B., Zhang G.*  “Charge doping effect on sigma-pi conjugated copolymers” Sci. China. Chem., 54, 975-984, 2011.

65.   Zhang G.,* Qin Y., Zhang H., Shang Y., Sun M., Liu B., Li Z. “Electronic structure-transport property relationships of polyferrocenylene, polyferrocenylacetylene, and polyferrocenylsilane” J. Phys. Chem. C, 114, 9469-9477, 2010.

66.   Zhang G.,* Yuan H., Zhang H., Shang Y., Sun M., Liu B., Li Z. “Theoretical studies of the transport property of oligosilaneSci. China. Chem., 53, 2571-2580, 2010.

67.   Zhang G.,* Zhang H., Li D., Chen D.,Yu X., Liu B., Li Z. “End-substitution effect on the geometry and electronic structure of oligoheterocyclics” Theor. Chem. Acc., 121, 109-122, 2008.

68.   Zhang G., Zhang H.,  Sun M.,  Liu Y., Pang X., Yu X., Liu B.,* Li Z. “Substitution effect on the geometry and electronic structure of the ferrocene” J. Comput. Chem., 28, 2260–2274, 2007.

69.   Zhang G., Ma J.,* Wen J. “Interchain impacts on electronic structures of heterocyclic oligomers and polymers containing group 14, 15, and 16 heteroatoms: quantum chemical calculations in combination with molecular dynamics simulations” J. Phys. Chem. B, 111, 11670-11679, 2007.

70.   Cao H., Ma J.,*Zhang G., Jiang Y. “Borole/thiophene cooligomers and copolymers with quinoid structures and biradical characters” Macromolecules, 38, 1123-1130, 2005.

71.   Zhang G., Ma J.,* Jiang Y. “Charge-doped and heteroatom-substituted polysilane, poly(vinylenedisilanylene), and poly(butadienylenedisilanylene): electronic structures and band gaps” J. Phys. Chem. B, 109, 13499-13509, 2005.

72.   Zhang G., Pei Y.,  Ma J.,* Yin K., Chen C. “Packing structures and packing effects on excitation energies of amorphous phase oligothiophenes” J. Phys. Chem. B, 108, 6988-6995, 2004.

Zhang G., Ma J.,* Jiang Y. “Effects of silole content and doping on the electronic structures and excitation energies of silole/thiophene cooligomers” Macromolecules, 36, 2130-2140, 2003.