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2002.9-2007.7 鍗楀紑澶у鐢熷懡绉戝瀛﹂櫌鐢熺墿鍖栧鍙婂垎瀛愮敓鐗╁涓撲笟锛屽崥澹?/span>

1993.9-1997.7 鍗楀紑澶у鐢熷懡绉戝瀛﹂櫌鐢熺墿鍖栧鍙婂垎瀛愮敓鐗╁涓撲笟锛屾湰绉慄/span>

 

浜屻€佸伐浣滅粡鍘咟/span>

2022.1-鑷充粖鍗楀紑澶у鍖诲闄紝鏁欐巿

2011.1-2021.12鍗楀紑澶у鍖诲闄↑/span>鍓暀鎺圏/span>

2007.7-2010.12鍗楀紑澶у鍖诲闄紝璁插笀

 

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1. DNA绾崇背缁撴瀯鍦ㄥ尰瀛︿腑鐨勫簲鐢?/span>

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2. 澶╂触甯傜鎶€閲嶅ぇ涓撻」涓庡伐绋嬶細鍩轰簬铏氭嫙鐜板疄鎶€鏈殑鍔涘弽棣堝績琛€绠℃墜鏈搷浣滄暀瀛︿笌瀹炶绯荤粺鐨勫紑鍙慄/span>

3. 鏁欒偛閮ㄤ骇瀛﹀悎浣滃崗鍚岃偛浜洪」鐩細鍖诲寰敓鐗╁铏氭嫙浠跨湡椤圭洰涓庡湪绾胯绋嬭瀺鍚堟暀瀛︽ā寮忕殑搴旂敤鐮旂┒

4. 鏁欒偛閮ㄤ骇瀛﹀悎浣滃崗鍚岃偛浜洪」鐩細鍩轰簬闃块噷浜戠殑鏅鸿兘鍖诲宸ョ▼涓撲笟鏍稿績璇剧▼鏀归潻

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浜斻€佽繎5骞翠互閫氳浣滆€呭彂琛ㄧ殑楂樻按骞宠鏂嘃/span>

1. He S, Cui R, Zhang Y, Yang Y, Xu Z, Wang S, Dang P, Dang K, Ye Q*Liu Y*. Design and Realization of Triple dsDNA Nanocomputing Circuits in Microfluidic Chips. ACS Appl Mater Interfaces. 2022. 14(8):10721-10728.

2. Huang N#, Chen M#, Chen S, Dang K, Guo H, Wang X, Yan S, Tian J, Liu Y*, Ye Q*. A Specific Nucleic Acid Microfluidic Capture Device Based on Stable DNA Nanostructure. ACS Appl Mater Interfaces. 2021. 13(21):24487-24492.

3. Wang X#, Yu J#, Lan W, Yang S, Wang S, Mi Y, Ye Q, Li Y, Liu Y*. Novel Stable DNA Nanoscale Material and Its Application on Specific Enrichment of DNA. ACS Appl Mater Interfaces. 2020. 12(17):19834-19839.

4. Yu J, Xing J, Zhan X, Yang Z, Qi J, Wei Y, Liu Y*. Improvement of Loop-mediated isothermal amplification combined with chromatographic flow dipstick assay for Salmonella in food samples. Food Analytical Methods. 2020. 13: 1398-1408.

5. Yu J, Zhou T, Zhu B, Wei Y, Li X, Liu Y*. Species-specific identification of Streptococcusbased on DNA marker in 16S-23S rDNA internal transcribed spacer. Curr Microbiol. 2020.77(8):1569-1579.

6. Yu J, Zhu B, Zhou T, Wei Y, Li X, Liu Y*. Species-specific Identification of Vibrio spp. based on 16S-23S rRNA gene internal transcribed spacer (ITS). J Appl Microbiol. 2020. 129: 738-752.

7. Xing J, Yu J*, Liu Y*. Improvement and evaluation of loop-mediated isothermal amplification combined with chromatographic flow dipstick assays for Vibrio parahaemolyticusJ Microbiol Methods. 2020. 171:105866.

8. Yang Z#, Wang N#, Wen H#, Cui R, Yu J, Yang S, Qu T, Wang X, He S, Qi J, Wang J, Ye Q*Liu Y*. An amplification-free detection method of nucleic acids by a molecular T beacon probe based on endonuclease activity. Sensors & Actuators B: Chemical. 2019. 298.126901.

9. Yu J#, Wang F#, Zhan X, Wang X, Zuo F, Wei Y, Qi J*Liu Y*. Improvement and Evaluation of Loop-mediated Isothermal Amplification Combined with Chromatographic Flow Dipstick Assay and Utilization in Detection for Vibrio choleraAnal Bioanal Chem. 2019; 411(3):647-658.

10. Yu J#, Peng X#, Wei Y, Mi Y, Zhu B, Zhou T, Yang Z, Liu Y*. Relationship of diversity and the secondary structure in 16S-23S rDNA internal transcribed spacer: a case in Vibrio parahaemolyticusFEMS Microbiology Letters. 2018. 365(17).

11. 鐜嬭壋鍑|/span>.璧靛浗鏄烖/span>.鍒樼晠.鍒樿壋鍗嶞/span>.鍒樺瘏铏氭嫙浠跨湡鎶€鏈姪鍔涗笅鐨凕/span>鈥淈/span>鍖诲寰敓鐗╁鈥滭/span>瀹為獙璇剧▼鏁欏鏂规鐨勮璁″拰瀹炶返.寰敓鐗╁閫氭姤. 2021, 48(1): 295-305.

12. 鐜嬭壋鍑|/span>.璧靛浗鏄烖/span>.鍒樼晠鍒樿壋鍗嶞/span>鍒樺瘏鐢熺墿瀹夊叏涓夌骇瀹為獙瀹ょ娴佹劅鐥呮瘨鍒嗙鍩瑰吇铏氭嫙浠跨湡瀹為獙鏁欏鍒濇帰瀹為獙鎶€鏈笌绠$悊. 2020, 37(09): 195-199.

13. 寮犳.鍒樺瘏鍖诲铏氭嫙鐜板疄瀹為獙鏁欏骞冲彴鐨勫缓璁惧拰瀹炶返瀹為獙瀹ょ瀛?/span>. 2020, 23(3): 43-46.

14. 鐜嬭壋鍑|/span>.璧靛浗鏄烖/span>.绁佸啗.鍒樺瘏.鍛煎惛閬撳垎娉岀墿閲囨牱璁粌浠跨湡妯″瀷鐨勭爺鍒朵笌搴旂敤.涓浗鐜颁唬鏁欒偛瑁呭. 2021, (13):54-57.

15. 鐜嬭壋鍑|/span>.璧靛浗鏄烖/span>.鍒樼晠.鍒樿壋鍗嶞/span>.鍒樺瘏鍩轰簬鈥淈/span>浠ュ涓轰腑蹇傸/span>鈥滭/span>鐨勫尰瀛﹀井鐢熺墿瀛﹁绋嬫暀瀛︽敼闈╀笌瀹炶返寰敓鐗╁閫氭姤. 2022, 49(4): 1524-1534.

 

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涓冦€佽崳瑾夊拰濂栧姳

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1锛庨€氳鍦板潃锛氬ぉ娲ュ競鍗楀紑鍖哄崼娲ヨ矾94鍙饵/span>

2锛庣數璇濓細13821597268

3锛嶞/span> E-mail锛欬/span> liuyin@nankai.edu.cn