师资队伍

李春宏

职称:特聘研究员

最高学历毕业院校及专业:西南大学 分析化学

所属学科:药物分析

电子邮件:chunhongli21@163.com

个人简历

研究方向

代表性论著

教学科研项目及获奖

职称 特聘研究员 最高学历毕业院校及专业 西南大学 分析化学
所属学科 药物分析 电子邮箱 chunhongli21@163.com
研究方向 生物传感与生化分析、药物的靶向递送及肿瘤准确治疗、新型酶促DNA合成及DNA数据存储(BT-IT融合) 发表论文 1. Li C. H.; Xie J. L.; Men C.; Liu L.; Huang C. Z.; Li C. M.; Zhen S. J. Precise delivery of ricin a-chain and photosensitizer by aptamer-functionalized liposome for targeted chemo-photodynamic synergistic therapy. ACS Materials Letters 2024, 6, 2050-2058.<br>
2. Li C. H.; Lv W. Y.; Yang F. F.; Li C. M.; Huang C. Z.; Zhen S. J. Logic control of directional long-range resonance energy transfer on 2D DNA nanosheet. Small 2023, 19, 2301811.<br>
3. Li C. H.; Lv W. Y.; Yang F. F.; Zhen S. J.; Huang C. Z. Simultaneous imaging of dual microRNAs in cancer cells through catalytic hairpin assembly on a DNA tetrahedron. ACS Appl. Mater. Interfaces 2022, 14, 12059–12067.<br>
4. Li C. H.; Lv W. Y.; Yan Y.; Yang F. F.; Zhen S. J.; Huang C. Z. Nucleolin-targeted DNA nanotube for precise cancer therapy through förster resonance energy transfer-indicated telomerase responsiveness. Anal. Chem. 2021, 93, 3526–3534.<br>
5. Li C. H.; Li R. S.; Li C. M.; Huang C. Z.; Zhen S. J. Precise ricin a-chain delivery by golgi-targeting carbon dots. Chem. Commun. 2019, 55, 6437-6440.<br>
6. Li C. H.; Xiao X.; Tao J.; Wang D. M.; Huang C. Z.; Zhen S. J. A graphene oxide-based strand displacement amplification platform for ricin detection using aptamer as recognition element. Biosens. Bioelectron. 2017, 91, 149-154.<br>
7. Lv W. Y.; Li C. H.; Yang F. F.; Li Y. F.; Zhen S. J.; Huang C. Z. Sensitive logic nanodevices with strong response for weak inputs. Angew. Chem. Int. Ed. 2022, 61, e202115561.<br>
8. Yang F. F.; Li C. H.; Lv W. Y.; Zhen S. J.; Huang C. Z. Deoxyribonucleic acid photonic wires with three primary color emissions for information encryption. Adv. Funct. Mater. 2021, 31, 2100322.<br>
9. Lv W. Y.; Li C. H.; Li Y. F.; Zhen S. J.; Huang C. Z. Hierarchical hybridization chain reaction for amplified signal output and cascade DNA logic circuits. Anal. Chem. 2021, 93, 3411-3417.<br>
10. Men C.; Li C. H.; Wei X. M.; Liu J. J.; Liu Y. X.; Huang C. Z.; Zhen S. J. A sensitive and low background fluorescent sensing strategy based on g-c3n4–MnO2 sandwich nanocomposite and liposome amplification for ricin detection. Analyst 2018, 143, 5764-5770.<br>
11. Tian L. L.; Li C. H.; Ye Q. C.; Li Y. F.; Huang C. Z.; Zhan L., Zhen S. J. A centrifugal microfluidic chip for point-of-care testing of staphylococcal enterotoxin B in complex matrices. Nanoscale 2022, 14, 1380-1385.<br>
12. Zhen S. J.; Xiao X.; Li C. H.; Huang C. Z. An enzyme-free DNA circuit-assisted graphene oxide enhanced fluorescence anisotropy assay for microrna detection with improved sensitivity and selectivity. Anal. Chem. 2017, 89, 8766-8771.<br>
13. Wang Y.; He W.; Li C. H.; Xia C.; Yan Y.; Li C. M.; Huang C. Z. Chirality transfer of cysteine to the plasmonic resonance region through silver coating of gold nanobipyramids. Chem. Commun. 2021, 57, 3211-3214.<br>
14. Liu Y. X.; Xie T. J.; Li C. H.; Ye Q. C.; Tian L. L.; Li Y. F., Zhen S. J. A crosslinked submicro-hydrogel formed by DNA circuit-driven protein aggregation amplified fluorescence anisotropy for biomolecules detection. Anal. Chim. Acta 2021, 1154, 338319.<br>
15. Liu Y. X.; Xiao X.; Li C. H.; Men C.; Ye Q. C.; Lv W. Y., Zhen S. J. DNA nanosheet as an excellent fluorescence anisotropy amplification platform for accurate and sensitive biosensing. Talanta 2020, 211, 120730.<br>
16. Tao J.; Xiao X.; Li C. H.; Men C.; Zhen S. J. A new graphene oxide enhanced fluorescence anisotropy strategy for microrna detection. Sci. Sin. Chim. 2017, 48, 85-92.<br>
17. Chai S. Q.; Lv W. Y.; He J. H.; Li C. H.; Li Y. F.; Li C. M.; Huang C. Z. Dual energy transfer-based fluorescent nanoprobe for imaging mir-21 in nonalcoholic fatty liver cells with low background. Anal. Chem. 2019, 91, 6761-6768.<br>
18. Kong B.; Yang T.; Hou P.; Li C. H.; Zou H. Y.; Huang C. Z. Enzyme-triggered fluorescence turn-off/turn-on of carbon dots for monitoring β-glucosidase and its inhibitor in living cells. Luminescence 2019, 35, 222-230.<br>
19. Wang, R. B.; Liu, Y. H.; Zhang, Y. L.; Yi, Q. X.; Xiao, W. J.; Wang, T. Q.; Chen, Q. Y.; Xiang, J. Y.; Song, L.; Li, C. H.; Li, F.; Liu, L.; Li, Q.; Fan, C. H.; Mao, X. H.; Zuo, X. L. DNA Framework-Enabled Ocular Barrier Penetration for Microinvasive Antiangiogenic Therapy J. Am. Chem. Soc. 2025. https://doi.org/10.1021/jacs.4c16529<br>
20.  Xia, C.; Gao, P. F.; He, W.; Wang, Y.; Li, C. H.; Zou, H. Y.; Li, Y. F.; Huang, C. Z. Long-distance transfer of plasmonic hot electrons across the Au–Pt porous interface for the hydrogen evolution reaction J. Mater. Chem. C 2021, 9, 3108-3114.<br>
教学科研成果 项目:<br>
主持2022年上海市“超级博士后”激励计划资助 (NO. 2022602)<br>
主持上海市2023年度“科技创新行动计划”启明星项目(扬帆专项)(NO. 22YF1460200)<br>

李春宏,博士研究生,特聘研究员。

获奖或荣誉称号

西南大学2021年优秀博士毕业论文,

西南大学2017年科技学术创新先进个人

生物传感与生化分析、药物的靶向递送及肿瘤准确治疗、新型酶促DNA合成及DNA数据存储(BT-IT融合)

1. Li C. H.; Xie J. L.; Men C.; Liu L.; Huang C. Z.; Li C. M.; Zhen S. J. Precise delivery of ricin a-chain and photosensitizer by aptamer-functionalized liposome for targeted chemo-photodynamic synergistic therapy. ACS Materials Letters 2024, 6, 2050-2058.
2. Li C. H.; Lv W. Y.; Yang F. F.; Li C. M.; Huang C. Z.; Zhen S. J. Logic control of directional long-range resonance energy transfer on 2D DNA nanosheet. Small 2023, 19, 2301811.
3. Li C. H.; Lv W. Y.; Yang F. F.; Zhen S. J.; Huang C. Z. Simultaneous imaging of dual microRNAs in cancer cells through catalytic hairpin assembly on a DNA tetrahedron. ACS Appl. Mater. Interfaces 2022, 14, 12059–12067.
4. Li C. H.; Lv W. Y.; Yan Y.; Yang F. F.; Zhen S. J.; Huang C. Z. Nucleolin-targeted DNA nanotube for precise cancer therapy through förster resonance energy transfer-indicated telomerase responsiveness. Anal. Chem. 2021, 93, 3526–3534.
5. Li C. H.; Li R. S.; Li C. M.; Huang C. Z.; Zhen S. J. Precise ricin a-chain delivery by golgi-targeting carbon dots. Chem. Commun. 2019, 55, 6437-6440.
6. Li C. H.; Xiao X.; Tao J.; Wang D. M.; Huang C. Z.; Zhen S. J. A graphene oxide-based strand displacement amplification platform for ricin detection using aptamer as recognition element. Biosens. Bioelectron. 2017, 91, 149-154.
7. Lv W. Y.; Li C. H.; Yang F. F.; Li Y. F.; Zhen S. J.; Huang C. Z. Sensitive logic nanodevices with strong response for weak inputs. Angew. Chem. Int. Ed. 2022, 61, e202115561.
8. Yang F. F.; Li C. H.; Lv W. Y.; Zhen S. J.; Huang C. Z. Deoxyribonucleic acid photonic wires with three primary color emissions for information encryption. Adv. Funct. Mater. 2021, 31, 2100322.
9. Lv W. Y.; Li C. H.; Li Y. F.; Zhen S. J.; Huang C. Z. Hierarchical hybridization chain reaction for amplified signal output and cascade DNA logic circuits. Anal. Chem. 2021, 93, 3411-3417.
10. Men C.; Li C. H.; Wei X. M.; Liu J. J.; Liu Y. X.; Huang C. Z.; Zhen S. J. A sensitive and low background fluorescent sensing strategy based on g-c3n4–MnO2 sandwich nanocomposite and liposome amplification for ricin detection. Analyst 2018, 143, 5764-5770.
11. Tian L. L.; Li C. H.; Ye Q. C.; Li Y. F.; Huang C. Z.; Zhan L., Zhen S. J. A centrifugal microfluidic chip for point-of-care testing of staphylococcal enterotoxin B in complex matrices. Nanoscale 2022, 14, 1380-1385.
12. Zhen S. J.; Xiao X.; Li C. H.; Huang C. Z. An enzyme-free DNA circuit-assisted graphene oxide enhanced fluorescence anisotropy assay for microrna detection with improved sensitivity and selectivity. Anal. Chem. 2017, 89, 8766-8771.
13. Wang Y.; He W.; Li C. H.; Xia C.; Yan Y.; Li C. M.; Huang C. Z. Chirality transfer of cysteine to the plasmonic resonance region through silver coating of gold nanobipyramids. Chem. Commun. 2021, 57, 3211-3214.
14. Liu Y. X.; Xie T. J.; Li C. H.; Ye Q. C.; Tian L. L.; Li Y. F., Zhen S. J. A crosslinked submicro-hydrogel formed by DNA circuit-driven protein aggregation amplified fluorescence anisotropy for biomolecules detection. Anal. Chim. Acta 2021, 1154, 338319.
15. Liu Y. X.; Xiao X.; Li C. H.; Men C.; Ye Q. C.; Lv W. Y., Zhen S. J. DNA nanosheet as an excellent fluorescence anisotropy amplification platform for accurate and sensitive biosensing. Talanta 2020, 211, 120730.
16. Tao J.; Xiao X.; Li C. H.; Men C.; Zhen S. J. A new graphene oxide enhanced fluorescence anisotropy strategy for microrna detection. Sci. Sin. Chim. 2017, 48, 85-92.
17. Chai S. Q.; Lv W. Y.; He J. H.; Li C. H.; Li Y. F.; Li C. M.; Huang C. Z. Dual energy transfer-based fluorescent nanoprobe for imaging mir-21 in nonalcoholic fatty liver cells with low background. Anal. Chem. 2019, 91, 6761-6768.
18. Kong B.; Yang T.; Hou P.; Li C. H.; Zou H. Y.; Huang C. Z. Enzyme-triggered fluorescence turn-off/turn-on of carbon dots for monitoring β-glucosidase and its inhibitor in living cells. Luminescence 2019, 35, 222-230.
19. Wang, R. B.; Liu, Y. H.; Zhang, Y. L.; Yi, Q. X.; Xiao, W. J.; Wang, T. Q.; Chen, Q. Y.; Xiang, J. Y.; Song, L.; Li, C. H.; Li, F.; Liu, L.; Li, Q.; Fan, C. H.; Mao, X. H.; Zuo, X. L. DNA Framework-Enabled Ocular Barrier Penetration for Microinvasive Antiangiogenic Therapy J. Am. Chem. Soc. 2025. https://doi.org/10.1021/jacs.4c16529
20. Xia, C.; Gao, P. F.; He, W.; Wang, Y.; Li, C. H.; Zou, H. Y.; Li, Y. F.; Huang, C. Z. Long-distance transfer of plasmonic hot electrons across the Au–Pt porous interface for the hydrogen evolution reaction J. Mater. Chem. C 2021, 9, 3108-3114.

项目:
主持2022年上海市“超级博士后”激励计划资助 (NO. 2022602)
主持上海市2023年度“科技创新行动计划”启明星项目(扬帆专项)(NO. 22YF1460200)

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