| Stochastic detection of enantiomers X Kang, S Cheley, X Guan, H Bayley Journal of the American Chemical Society 128 (33), 10684-10685, 2006 | 197 | 2006 |
| Stochastic sensing of TNT with a genetically engineered pore X Guan, LQ Gu, S Cheley, O Braha, H Bayley ChemBioChem 6 (10), 1875-1881, 2005 | 179 | 2005 |
| Real-time monitoring of peptide cleavage using a nanopore probe Q Zhao, RSS de Zoysa, D Wang, DA Jayawardhana, X Guan Journal of the American Chemical Society 131 (18), 6324-6325, 2009 | 146 | 2009 |
| Slowing DNA translocation through nanopores using a solution containing organic salts RSS de Zoysa, DA Jayawardhana, Q Zhao, D Wang, DW Armstrong, ... The Journal of Physical Chemistry B 113 (40), 13332-13336, 2009 | 109 | 2009 |
| Study of peptide transport through engineered protein channels Q Zhao, DA Jayawardhana, D Wang, X Guan The Journal of Physical Chemistry B 113 (11), 3572-3578, 2009 | 91 | 2009 |
| Nanopore stochastic detection: diversity, sensitivity, and beyond G Wang, L Wang, Y Han, S Zhou, X Guan Accounts of chemical research 46 (12), 2867-2877, 2013 | 85 | 2013 |
| Nanopore detection of copper ions using a polyhistidine probe G Wang, L Wang, Y Han, S Zhou, X Guan Biosensors and Bioelectronics 53, 453-458, 2014 | 78 | 2014 |
| Label-free nanopore single-molecule measurement of trypsin activity S Zhou, L Wang, X Chen, X Guan ACS sensors 1 (5), 607-613, 2016 | 76 | 2016 |
| Nanopore detection of metal ions: current status and future directions GM Roozbahani, X Chen, Y Zhang, L Wang, X Guan Small Methods 4 (10), 2000266, 2020 | 74 | 2020 |
| Genomic sequencing using modified protein pores and ionic liquids X Guan, DA Jayawardhana, DW Armstrong, RS De Zoysa, D Wang, ... | 72 | 2010 |
| Nanopore stochastic detection of a liquid explosive component and sensitizers using boromycin and an ionic liquid supporting electrolyte DA Jayawardhana, JA Crank, Q Zhao, DW Armstrong, X Guan Analytical chemistry 81 (1), 460-464, 2009 | 72 | 2009 |
| Stochastic nanopore sensors for the detection of terrorist agents: current status and challenges A Liu, Q Zhao, X Guan Analytica chimica acta 675 (2), 106-115, 2010 | 71 | 2010 |
| Nanopores: sensing and fundamental biological interactions SM Iqbal, R Bashir Springer Science & Business Media, 2011 | 70 | 2011 |
| 锍试金富集贵金属元素 1Ⅰ. 等离子体质谱法测定地质样品中痕量铂族元素 孙亚莉, 管希云, 杜安道 岩矿测试 16 (1), 12-17, 1997 | 69 | 1997 |
| Probing mercury (II)–DNA interactions by nanopore stochastic sensing G Wang, Q Zhao, X Kang, X Guan The Journal of Physical Chemistry B 117 (17), 4763-4769, 2013 | 67 | 2013 |
| Peptide-mediated nanopore detection of uranyl ions in aqueous media GM Roozbahani, X Chen, Y Zhang, R Xie, R Ma, D Li, H Li, X Guan ACS sensors 2 (5), 703-709, 2017 | 63 | 2017 |
| Real-time label-free measurement of HIV-1 protease activity by nanopore analysis L Wang, Y Han, S Zhou, X Guan Biosensors and Bioelectronics 62, 158-162, 2014 | 59 | 2014 |
| Determination of platinum group elements by inductively coupled plasma-mass spectrometry combined with nickel sulfide fire assay and tellurium coprecipitation AD Y Sun, X Guan Spectrochimica Acta Part B, 1998 | 56 | 1998 |
| Translocation of single‐stranded DNA through the α‐hemolysin protein nanopore in acidic solutions RSS de Zoysa, DMM Krishantha, Q Zhao, J Gupta, X Guan Electrophoresis 32 (21), 3034-3041, 2011 | 53 | 2011 |
| Stochastic study of the effect of ionic strength on noncovalent interactions in protein pores Q Zhao, DA Jayawardhana, X Guan Biophysical journal 94 (4), 1267-1275, 2008 | 51 | 2008 |
