賈慶岩

賈慶岩,男,博士西北工業大學柔性電子研究院副教授。

基本介紹

  • 中文名:賈慶岩
  • 學位/學歷:博士
  • 職業:教師
  • 任職院校:西北工業大學
  • 職稱:副教授
個人經歷,研究方向,榮譽獎項,學術成果,

個人經歷

工作經歷 Work Experience
2018/07 - 至今,西北工業大學,柔性電子研究院,副教授;
2015/09 - 2018/06,中國科學院理化技術研究所,博士;
2012/09 - 2015/06,山東科技大學,化學與環境工程學院,碩士;
2008/09 - 2012/06,山東科技大學,化學與環境工程學院,學士;

研究方向

1. 光動力抗菌材料的製備及套用;
2. 新型納米藥物的設計及其在腫瘤光診療方面的套用。

榮譽獎項

基金資助
2018年獲西北工業大學新進教師科研啟動經費,20萬。
獎勵
2017 年 博士研究生國家獎學金
2018 年 中國科學院院長優秀獎

學術成果

Academic Achievements
主要學術成績
近年來,主要從事功能納米材料(碳點、矽納米材料、聚合物、有機小分子納米自組裝體等)在生物醫學、能源環境方面的套用研究,以第一作者(含共同第一)在Advanced Materials、Nanoscale、ACS Applied Materials & Interfaces等著名國際刊物上發表論文7篇;此外,還獲得博士研究生國家獎學金、中國科學院院長優秀獎、中國科學院理化技術研究所所長獎學金、中國科學院“三好學生”和材料化學亞太國際會議“優秀牆報獎”等榮譽。
代表性論文與專著
[1] Jia Q.-Y., Zheng X.-L., Ge J.-C., Liu W.-M., Ren H.-H., Chen S.-Q., Wen Y.-M., Zhang H.-Y., Wu J.-S., Wang P.-F., Carbon dot derived from hypocrella bambusae for bimodel fluorescence/photoacoustic imaging-guided synergistic photodynamic/photothermal therapy in hypoxic tumor, Journal of Colloid and Interface Science, 2018, 526: 302-311.
[2] Jia Q.-Y., Ge J.-C., Liu W.-M., Zheng X.-L., Chen S.-Q., Wen Y.-M., Zhang H.-Y., Wang P.-F., A magnetofluorescent carbon dot assembly as an acidic H2O2-driven oxygenerator to regulate tumor hypoxia for simultaneous bimodal imaging and enhanced photodynamic therapy, Advanced Materials, 2018, 30: 1706090.
[3] Jia Q.-Y., Ge J.-C., Liu W.-M., Guo L., Zheng X.-L., Chen S.-Q., Chen M.-X., Liu S., Zhang L.-P., Wang M.-Q., Zhang H.-Y., Wang P.-F., Self-assembled carbon dot nanosphere: a robust, near-infrared light-responsive, and vein injectable photosensitizer, Advanced Healthcare Materials, 2017, 6: 1601419.
[4] Jia Q.-Y., Chen M.-X., Liu Q.-Y., Liu W.-M., Zhang H.-Y., Ge J.-C., Wang P.-F., Ethylene glycol-mediated synthetic route for production of luminescent silicon nanorod as photodynamic therapy agent, ials, 2017, 60: 881-891.
[5] Jia Q.-Y., Ge J.-C., Liu W.-M., Zheng X.-L., Wang M.-Q., Zhang H.-Y., Wang P.-F., Biocompatible iron phthalocyanine-albumin assemblies as photoacoustic and thermal theranostics in living mice, ACS Applied Materials & Interfaces, 2017, 9: 21124-21132.
[6] Jia Q.-Y., Ge J.-C., Liu W.-M., Liu S., Niu G.-L., Guo L., Zhang H.-Y., Wang P.-F., Gold nanorod@silica-carbon dots as multifunctional phototheranostics for fluorescence and photoacoustic imaging-guided synergistic photodynamic/photothermal therapy, Nanoscale, 2016, 8: 13067-13077.
[7] Ding Y.#, .-Y.#, Wen Y.-M., Liu W.-M., Ge J.-C., Wu J.-S., Zhang H.-Y., Wang P.-F., New detection method for nucleoside triphosphates based on carbon dots: the distance-dependent singlet oxygen trapping, Anal Chim Acta: 2018, DOI: 10.1016/j.aca.2018.05.024. (# Equal contribution)
[8] Chen S.-Q., Jia Q.-Y., Zheng X.-L., Wen Y.-M., Liu W.-M., Zhang H.-Y., Ge J.-C., Wang P.-F., PEGylated carbon dot/MnO2 nanohybrid: a new pH/H2O2-driven, turn-on cancer nanotheranostics, Science China Materials, 2018, DOI: 10.1007/s40843-018-9261-x.
[9] Ge J.-C., Jia Q.-Y., Liu W.-M., Lan W.-H., Zhou B.-J., Guo L., Zhou H.-Y., Zhang H.-Y., Wang Y., Gu Y., Meng X.-M., Wang P.-F., Carbon dots with intrinsic theranostic properties for bioimaging, red-light-triggered photodynamic/photothermal simultaneous therapy in vitro and in vivo, Advanced Healthcare Materials, 2016, 5: 665-675.
[10] Ge J.-C., Jia Q.-Y., Liu W.-M., Guo L., Liu Q.-Y., Lan W.-H., Zhang H.-Y., Meng X.-M., Wang P.-F., Red-emissive carbon dots for fluorescent, photoacoustic, and thermal theranostics in living mice, Advanced Materials, 2015, 27: 4169-4177.
[11] Guan M.-R, Li J., Jia Q.-Y., Ge J.-C., Chen D.-Q., Zhou Y., Wang P.-F, Zou T.-J., Zhen M.-M., Wang C.-R., Shu C.-Y., , Advanced Healthcare Materials, 2016, 5: 2283-2294.
[12] Guo L., Ge J.-C., Liu Q., Jia Q.-Y., Zhang H.-Y., Liu W.-M., Niu G.-L., Liu S., Gong J.-R., Hackbarth S., Wang P.-F., , Advanced Healthcare Materials, 2017, 6: 1601431.
[13] Ge J.-C., Lan M.-H., Liu W.-M., Jia Q.-Y., Guo L., Zhou B.-J., Meng X.-M., Niu G.-L., Wang P.-F., , Science China Materials, 2016, 59: 12-19.
[14] Guo L., Ge J.-C., Liu W.-M., Niu G.-L., Jia Q.-Y., Wang H., Wang P.-F., , Nanoscale, 2016, 8: 729-734.
[15] Zhou B.-J., Li Y.-Z., Niu G.-L., Lan M.-H., Jia Q.-Y., Liang Q.-L., , ACS Applied Materials & Interfaces, 2016, 8: 29899-29905.
[16] Guo L., Liu W.-M., Niu G.-L, Zhang P.-P., Zheng X.-L., Jia Q.-Y., Zhang H.-Y., Ge J.-C., Wang P.-F., , Journal of Materials Chemistry B, 2017, 5: 2832-2839.
[17] Guo L., Niu G.-L., Zheng X.-L., Ge J.-C., Liu W.-M., Jia Q.-Y., Zhang P.-P., Zhang H.-Y., Wang P.-F., , Advanced Science, 2017, 4: 1700085.
[18] Ge J.-C., Lan M.-H., Zhou B.-J., Liu W.-M., Guo L., Wang H., Jia Q.-Y., Niu G.-L., Huang X., Zhou H.-Y., Meng X.-M., Wang P.-F., Lee C.-S., Zhang W.-J., Han X.-D., A graphene quantum dot photodynamic therapy agent with high singlet oxygen generation, Nature Communications, 2014, 5: 4596.

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