張紹岩(博士)

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張紹岩,女,1979年生,博士,講師,2007年畢業於南開大學化學學院材料物理與化學專業,獲工學博士學位。主要從事納米材料的可控制備、鋰電池電極材料和納米陶瓷材料等的研究與開發。

基本介紹

  • 中文名:張紹岩
  • 畢業院校:南開大學
  • 出生地:1979年
  • 性別:女
教育科研,主要論文,科研項目,代表性論文,

教育科研

主講《納米材料》、《功能材料》、《無機非金屬材料》、《複合材料》等課程,現承擔石家莊市科學技術研采挨慨究與發展指導計畫項目 一項,參與石家莊市科技支撐計畫項目一項,並負責石家莊建陶工兆戶程技術研究中心的籌建工影厚付厚作。已發表學術論文20餘篇,SCI收錄10餘篇,其中部分工作發表在美國化學會(ACS)著名期刊J.Am. Chem. SocJ. Phys. Chem. C上,被他人引用累積90多次。

主要論文

張紹岩,次立傑,張星辰等. 黃色雲母珠光顏料的牛婆詢製備.河北化工
張紹岩,丁士文*,劉淑娟等. 均相沉澱法合成納米ZnO及其光催化性能研究. 化學學報
丁士文*,張紹岩,劉淑娟等. 直接沉澱法製備納米ZnO及其光催化性. 無機化學學報

科研項目

(1)2014-2016年,“釩酸銅/導電聚合物同軸納米電纜的可控制備及電化學性能研究”(項目批准號No. 21303107),國家自然科學基金項目,主持人
(2)2014-2016年,“過渡金屬釩酸鹽/導電聚吡咯同軸納米電纜的可控制備及電化學性能研究” (項目批准號B2014106056),河北省自然科學基金項目,主持人
(3)2010-2012年,“納米Cu3V2O7(OH)2.2H2O的可控制備及在鋰離子電池中的應棵戰墊用研究”(項目批准號B2010001946),河北省自然科學基金項目,主持人,已結項
(4)第二批河北省高校百名優秀創糠主囑新人才支持計畫,項目批准號No. BR2-264,主持人

代表性論文

[1]Zhang S. Y., Ren L., Peng S. J., Zn2SiO4urchin-like microspheres: controlled synthesis and application in lithium-ion batteries, CrystEngComm, 2014, 16, 6195–6202.
[2]Zhang S. Y., An W., Wu G., Cu5(VO4)2(OH)4·H2O nanobelts as anode materialsfor lithium-ion batteries, Chemical Physics Letters , 2015, 621, 1–4.
[3]Zhang S. Y., Ci L. J., Liu H. R., Synthesis, characterization, and electrochemical properties of Cu3V2O7(OH)2·2H2O nanostructures, J. Phys. Chem. C,2009, 113: 8624–寒紙祝采8629.
[4]Zhang S. Y., Hu R. S., Liu L., Wang D. Y., Hydrothermal synthesis of MnV2O6nanobelts and its application in lithium-ion battery, Materials Letters, 2014, 124 , 57–60.
[5]Zhang S. Y., Ci L. J., Li C. S., et al., Cu3V2O8hollow spheres in photocatalysis and primary lithium batteries,Solid State Sciences, 2013, 25, 15–21.
[6] Zhang S. Y., Lei N., Ma W. Q., et al. Fabrication of ultralong Zn3V2O7(OH)2?2H2O nanobelts and its application in lithium-ion batteries, Materials Letters, 2014, 129, 91–94.
[7] Zhang S. Y., Ci L. J., Synthesis and formation mechanism of Cu3V2O7(OH)2·2H2O nanowires, Mater. Res. Bull.,2009, 44: 2027–2032.
[8] Zhang S. Y., Ci L. J., Cu3V2O7(OH)2.2H2O hollow structures for primary lithium batteries, Micro Nano Lett., 2012, 7: 1101–1104.
[9]Zhang S. Y., Xiao X., Lu M., et al., Zn3V2O7(OH)2·2H2O and Zn3(VO4)23D microspheres as anode materials for lithium-ion batteries, J. Mater. Sci., 2013, 48: 3679–3685.
[10]Zhang S. Y., Lu M., Hydrothermal synthesis and optical characterization of 1-D AgVO3and Ag2V4O11nano/microstructures, Adv. Sci. Lett.,2011, 4: 3701–3705.
[11] Zhang S. Y., Sun Y., Li C. S, Hu R. S., Rational synthesis of copper vanadates/polypyrrole nanowires with enhanced electrochemical property, Mater. Lett., 2013, 91: 154–157.
[12] Zhang S. Y., Li W. Y., Li C. S., Chen J., Synthesis, characterization, and electrochemical properties of Ag2V4O11and AgVO31-D nano/microstructures, J. Phys.Chem. B,2006, 110: 24855–24863.
[13] Zhang SY, Lu M, Li Y, et al. Synthesis and electrochemical properties of Zn2SiO4nano/mesorods, Mater Lett, 2013, 100: 89-93.
[14] Ma H., Zhang S. Y., Ji W. Q., et al., α-CuV2O6nanowires: hydrothermal synthesis and primary lithium battery application, J. Am. Chem. Soc.,2008, 130: 5361–5367.
[15]Li C. S., Zhang S. Y., Cheng F. Y., et al., Porous LiFePO4/NiP composite nanospheres as the cathode materials in rechargeable lithium ion batteries, Nano Res.,2008, 1: 242–248.
[4]Zhang S. Y., Hu R. S., Liu L., Wang D. Y., Hydrothermal synthesis of MnV2O6nanobelts and its application in lithium-ion battery, Materials Letters, 2014, 124 , 57–60.
[5]Zhang S. Y., Ci L. J., Li C. S., et al., Cu3V2O8hollow spheres in photocatalysis and primary lithium batteries,Solid State Sciences, 2013, 25, 15–21.
[6] Zhang S. Y., Lei N., Ma W. Q., et al. Fabrication of ultralong Zn3V2O7(OH)2?2H2O nanobelts and its application in lithium-ion batteries, Materials Letters, 2014, 129, 91–94.
[7] Zhang S. Y., Ci L. J., Synthesis and formation mechanism of Cu3V2O7(OH)2·2H2O nanowires, Mater. Res. Bull.,2009, 44: 2027–2032.
[8] Zhang S. Y., Ci L. J., Cu3V2O7(OH)2.2H2O hollow structures for primary lithium batteries, Micro Nano Lett., 2012, 7: 1101–1104.
[9]Zhang S. Y., Xiao X., Lu M., et al., Zn3V2O7(OH)2·2H2O and Zn3(VO4)23D microspheres as anode materials for lithium-ion batteries, J. Mater. Sci., 2013, 48: 3679–3685.
[10]Zhang S. Y., Lu M., Hydrothermal synthesis and optical characterization of 1-D AgVO3and Ag2V4O11nano/microstructures, Adv. Sci. Lett.,2011, 4: 3701–3705.
[11] Zhang S. Y., Sun Y., Li C. S, Hu R. S., Rational synthesis of copper vanadates/polypyrrole nanowires with enhanced electrochemical property, Mater. Lett., 2013, 91: 154–157.
[12] Zhang S. Y., Li W. Y., Li C. S., Chen J., Synthesis, characterization, and electrochemical properties of Ag2V4O11and AgVO31-D nano/microstructures, J. Phys.Chem. B,2006, 110: 24855–24863.
[13] Zhang SY, Lu M, Li Y, et al. Synthesis and electrochemical properties of Zn2SiO4nano/mesorods, Mater Lett, 2013, 100: 89-93.
[14] Ma H., Zhang S. Y., Ji W. Q., et al., α-CuV2O6nanowires: hydrothermal synthesis and primary lithium battery application, J. Am. Chem. Soc.,2008, 130: 5361–5367.
[15]Li C. S., Zhang S. Y., Cheng F. Y., et al., Porous LiFePO4/NiP composite nanospheres as the cathode materials in rechargeable lithium ion batteries, Nano Res.,2008, 1: 242–248.

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