| Arsenic speciation in the environment WR Cullen, KJ Reimer Chemical reviews 89 (4), 713-764, 1989 | 3524 | 1989 |
| Rolling circle amplification: a versatile tool for chemical biology, materials science and medicine MM Ali, F Li, Z Zhang, K Zhang, DK Kang, JA Ankrum, XC Le, W Zhao Chemical Society Reviews 43 (10), 3324-3341, 2014 | 1020 | 2014 |
| Arsenic binding to proteins S Shen, XF Li, WR Cullen, M Weinfeld, XC Le Chemical reviews 113 (10), 7769-7792, 2013 | 785 | 2013 |
| Arsenic speciation analysis Z Gong, X Lu, M Ma, C Watt, XC Le Talanta 58 (1), 77-96, 2002 | 551 | 2002 |
| A microRNA-initiated DNAzyme motor operating in living cells H Peng, XF Li, H Zhang, XC Le Nature communications 8 (1), 1-13, 2017 | 471 | 2017 |
| Speciation of key arsenic metabolic intermediates in human urine XC Le, X Lu, M Ma, WR Cullen, HV Aposhian, B Zheng Analytical Chemistry 72 (21), 5172-5177, 2000 | 420 | 2000 |
| DNA-mediated homogeneous binding assays for nucleic acids and proteins H Zhang, F Li, B Dever, XF Li, XC Le Chemical reviews 113 (4), 2812-2841, 2013 | 409 | 2013 |
| Aptamer binding assays for proteins: the thrombin example—a review B Deng, Y Lin, C Wang, F Li, Z Wang, H Zhang, XF Li, XC Le Analytica chimica acta 837, 1-15, 2014 | 403 | 2014 |
| Occurrence of monomethylarsonous acid in urine of humans exposed to inorganic arsenic HV Aposhian, ES Gurzau, XC Le, A Gurzau, SM Healy, X Lu, M Ma, L Yip, ... Chemical Research in Toxicology 13 (8), 693-697, 2000 | 374 | 2000 |
| Molecular diagnosis of COVID-19: challenges and research needs W Feng, AM Newbigging, C Le, B Pang, H Peng, Y Cao, J Wu, G Abbas, ... Analytical chemistry 92 (15), 10196-10209, 2020 | 373 | 2020 |
| Selection and analytical applications of aptamers CLA Hamula, JW Guthrie, H Zhang, XF Li, XC Le TrAC Trends in Analytical Chemistry 25 (7), 681-691, 2006 | 335 | 2006 |
| Binding-induced fluorescence turn-on assay using aptamer-functionalized silver nanocluster DNA probes J Li, X Zhong, H Zhang, XC Le, JJ Zhu Analytical chemistry 84 (12), 5170-5174, 2012 | 319 | 2012 |
| Biotransformation of arsenic by a Yellowstone thermoacidophilic eukaryotic alga J Qin, CR Lehr, C Yuan, XC Le, TR McDermott, BP Rosen Proceedings of the National Academy of Sciences 106 (13), 5213-5217, 2009 | 315 | 2009 |
| Electrochemical DNAzyme sensor for lead based on amplification of DNA− Au Bio-Bar codes L Shen, Z Chen, Y Li, S He, S Xie, X Xu, Z Liang, X Meng, Q Li, Z Zhu, ... Analytical Chemistry 80 (16), 6323-6328, 2008 | 302 | 2008 |
| Human urinary arsenic excretion after one-time ingestion of seaweed, crab, and shrimp XC Le, WR Cullen, KJ Reimer Clinical chemistry 40 (4), 617-624, 1994 | 287 | 1994 |
| Inducible repair of thymine glycol detected by an ultrasensitive assay for DNA damage XC Le, JZ Xing, J Lee, SA Leadon, M Weinfeld Science 280 (5366), 1066-1069, 1998 | 280 | 1998 |
| Speciation of submicrogram per liter levels of arsenic in water: On-site species separation integrated with sample collection XC Le, S Yalcin, M Ma Environmental science & technology 34 (11), 2342-2347, 2000 | 272 | 2000 |
| Exponential isothermal amplification of nucleic acids and assays for proteins, cells, small molecules, and enzyme activities: an EXPAR example MS Reid, XC Le, H Zhang Angewandte Chemie International Edition 57 (37), 11856-11866, 2018 | 270 | 2018 |
| Determination of monomethylarsonous acid, a key arsenic methylation intermediate, in human urine. XC Le, M Ma, WR Cullen, HV Aposhian, X Lu, B Zheng Environmental Health Perspectives 108 (11), 1015-1018, 2000 | 247 | 2000 |
| Effect of arsenosugar ingestion on urinary arsenic speciation M Ma, XC Le Clinical Chemistry 44 (3), 539-550, 1998 | 246 | 1998 |
Xing-Fang LiUniversity of Alberta在 ualberta.ca 的电子邮件经过验证
