Patents | Google Scholar Profile | ResearchGate Profile | Research ID Profile | Impact Factors
>> H-index: 50 (Google Scholar); Highly Cited Papers: 5.
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-- | Special Issues & Call for papers: Guest Editor (w/ Dr. Manabu Tokeshi), Micromachines, 2021, Special issue “Feature Paper in Chemistry 2020”. (Special Issue 3) |
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-- | Guest Editor (Dr. Chaoyong Yang, and Dr. Xiujun Li), Analytical & Bioanalytical Chemistry, Thematic isse on “Analytical Chemistry for Infectious Disease Detection & Prevention”. 2021. (Special Issue 2) -Editorial |
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-- | Guest Editor, Current Pharmaceutical Biotechnology, Thematic issue on “Miniaturized platforms & methods for pharmaceutical studies”. 2016. (Special Issue 1) -Editorial * One of the most cited issues. |
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124. |
Li, H.; Liu, J.; Li, C.; Wang, R.; Kannan, S.; Li, X.;* Fu, G.* Development of a syringe-hosted load-and-read immunoassay device using autoinjected multiplexed distance readout in paper inserts. Microchimica Acta 2025, In Press. |
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123. |
Chen, L.; Deemer, E. M.;* Li, X.;* Walker, W. S.* Sulfonated Polyethersulfone Membranes for Brackish Water Desalination: Fabrication, Characterization, and Electrodialysis Performance Evaluation. Applied Sciences 2025, 15, 216. DOI: 10.3390/app15010216. |
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122. |
Li, C.; Liu, J.; Almanza, A.; Li, X.;* Fu, G.* Integration of Immuno-Syringe-Sensors with Bar-Chart Chips for Prick-and-Read Testing of Prostate Specific Antigen. Anal Chem 2024, 96, 20267-20276. DOI: 10.1021/acs.analchem.4c04822. |
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121. |
Timilsina, S. S.; Li, X.* A Paper-in-Polymer-Pond (PiPP) Hybrid Microfluidic Microplate for Multiplexed Ultrasensitive Detection of Cancer Biomarkers, Lab Chip 2024, 24, 4962-4973. DOI: 10.1039/D4LC00485J. -Featured in inside Front Cover! |
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120. |
Li, C.; Zhou, W.; Gutierrez, A.; Mohammadi, Y.; Li, Q.; Zhang, S.; Li, X.;* Fu, G.* Microfluidic immunoassays for point-of-care testing of SARS-CoV-2 antigens and antibodies. TRAC - Trend Anal Chem 2024, 177, 117809. DOI: 10.1016/j.trac.2024.117809. (2021 IF 14.9).
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119. |
Yuan, L.; Gao, X.;* Kang, R.; Zhang, X.; Meng, X.; Li, X.C.;* Li, X.* Flexible Strain Sensors Based on an Interlayer Synergistic Effect of Nanomaterials for Continuous and Noninvasive Blood Pressure Monitoring, ACS Appl Mater Interfaces 2024, 16, 26943-26953. DOI: 10.1021/acsami.4c04134. (2021 IF 10.4) |
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117. |
Henao-Pabon,+ G.; Gao, N.;+ Prasad, K. S.;+ Li, X.,* Direct Electron Transfer of Glucose Oxidase on Pre-Anodized Paper/Carbon Electrodes Modified Through Zero-Length Cross-linkers For Glucose Biosensors. Biosensors 2023, 13, 566. DOI: 10.3390/bios13050566.
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116. |
Zhang, C.; Liu, H.; Li, X.; Xu, F.; Li, Z. Modularized Synthetic Biology Enabled Intelligent Biosensors, Trends in Biotechnology 2023, 41, 1055-1065. DOI: 10.1016/j.tibtech.2023.03.005. (2021 IF 21.9) |
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115. |
Katla, S. K.;+ Zhou, W.;+ Tavakoli, H.; Mendez, E.; Li, X.* Portable in-situ temperature-dependent spectroscopy on a low-cost microfluidic platform integrated with a battery-powered thermofoil heater, View 2023, 4, 20220053. DOI: 10.1002/VIW.20220053.
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114. |
Tavakoli, H.;+ Hirth, E.;+ Luo, M.; Sharma, S.; Dou, M.; Dominguez, D. C.; Li, X.* A microfluidic fully paper-based analytical device integrated with loop-mediated isothermal amplification and nano-biosensors for rapid, sensitive, and specific quantitative detection of infectious diseases, Lab Chip 2022, 22, 4693-4704. DOI: 10.1039/D2LC00834C.
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113. |
Li, H.; Deng, R.; Tavakoli, H.; Li, X.C.;* Li, X.* Ultrasensitive detection of acephate based on carbon quantum dots-mediated fluorescence inner filter effects, Analyst 2022, 147, 5462-5469. DOI: 10.1039/D2AN01552H.
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112. |
Tavakoli, H; Mohammadi, S.; Li, X.C.; Fu, G.;* Li, X.* Microfluidic platforms integrated with nano-sensors for point-of-care bioanalysis, TRAC - Trend Anal Chem 2022, 157, 116806. DOI: 10.1016/j.trac.2022.116806. (Invited. 2021 IF 14.9). |
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111. |
Hu, K.; Ma, L.; Wang, Z.;* Fernandez-Delgado, O.; Garay, Y.; Lopez, J. A.; Li, X.* Facile synthesis and integration of polyvinyl alcohol sponge-supported metal nanocatalysts on a microfluidic chip enable a new continuous flow multi-reactor nanocatalysis platform for high efficiency and reusability catalysis, ACS Sustain Chem Eng 2022, 10, 10579-10589. DOI: 10.1021/acssuschemeng.2c02060. (2021 IF 9.2) |
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110. |
Ge, Y.; Wu, Y.; Ma, L.; Li, X.; Román, M.; Chianelli, R. R.; Torres, B.; Villagrán, D. Amine and Carbon-pretreated nickel–molybdenum disulfide as bifunctional electrocatalysts for hydrogen and oxygen gas evolution, International Journal of Hydrogen Energy 2022, 47, 27839-27847. DOI: 10.1016/j.ijhydene.2022.06.114. |
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109. |
Zhang, J.;+ Tavakoli, H.;+ Ma, L.; Li, X. C.; Han, L.; Li, X.* Immunotherapy discovery on tumor organoid-on-a-chip platforms that recapitulate the tumor microenvironment, Adv Drug Deliv Rev 2022, 187, 114365. DOI: 10.1016/j.addr.2022.114365. (2021 IF 17.9) |
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108. |
Getahun, Y. W.; Gardea-Torresdey, J.; Manciu, F. S.; Li, X.;* El-Gendy, A. A.* Green synthesized superparamagnetic iron oxide nanoparticles for water treatment with alternative recyclability, J Mol Liq 2022, 356, 118983. (2021 IF 6.2) |
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107. |
Paez, A.; Sundin, E. M.; Navarro, G.; Li, X.; Boland, T.; Li, C.*, Two-Photon Flow Cytometry with Laser Scanning Two-Dimensional Airy Beams. Opt Commun 2022, 508, 127804. |
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106. |
Zhang, X.; Wang, L.; Li, X. C.;* Li, X.,* AuNP aggregation-induced quantitative colorimetric aptasensing of sulfadimethoxine with a smartphone. Chin Chem Lett 2022, 33, 3078-3082. DOI: 10.1016/j.cclet.2021.09.061. (IF 6.8) |
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105. |
Fu, G.;* Hou, R.; Mou, X.; Li, X.* Integration of 3,3’,5,5’-tetramethylbenzidine (TMB)-probed ELISA-like systems in a photothermal bar-chart microfluidic chip for multiplexed immunoassay, Anal Chem 2021, 93, 15105-15114. DOI: 10.1021/acs.analchem.1c03387. (IF 7.0)
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104. |
Fatoyinbo, H. O.; Li, X. “Microfluidic devices for cell manipulation”, In Microfluidic Devices for Biomedical Applications (Second Edition); Li, X., Zhou, Y., Eds.; Elsevier (Woodhead) Publishing, 2021, pp 329-389. DOI: 10.1016/B978-0-12-819971-8.00017-2. Revised. (Book Chapter #10) |
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103. |
Kang, D. K.; Lu, J.; Zhang, W.; Chang, E.; Eckert, M. A.; Ali, M. M.; Zhao, W.; Li, X. “Microfluidic devices for stem cell analysis”, In Microfluidic Devices for Biomedical Applications (Second Edition); Li, X., Zhou, Y., Eds.; Elsevier (Woodhead) Publishing, 2021, pp 437-487. DOI: 10.1016/B978-0-12-819971-8.00013-5. Revised. (Book Chapter #9) |
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102. |
Li, X. J.*, Yang, C *, Li, P.C.H.*; Multidisciplinary Microfluidic/Nanofluidic Lab-on-a-Chip, Elsevier, 2021, 494 Pages. (Book III, ISBN: 978-0-444-59432-7). |
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101. |
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100. |
Zhou, W.;+ Fu, G.;+ Li, X.*; Detector-free photothermal bar-chart microfluidic chips (PT-Chips) for visual quantitative detection of biomarkers, Anal Chem 2021, 93, 7754-7762. DOI: 10.1021/acs.analchem.1c01323. (2019 IF 6.8) |
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99. |
Li, X.;* Yang, C.* Analytical Chemistry for Infectious Disease Detection and Prevention, Anal Bioanal Chem 2021, 413, 4561-4562. DOI: 10.1007/s00216-021-03441-1. (Editorial #2) |
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98. |
Ma, L.;+ Abugalyon, Y.;+ Li, X.* Multicolorimetric ELISA Biosensors on a Paper/Polymer Hybrid Analytical Device for Visual Point-of-Care Detection of Infection Diseases, Anal Bioanal Chem 2021, 413, 4655-4663. DOI: 10.1007/s00216-021-03359-8. |
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Zhou, W.; Fu, G.; Li, X.* Detector-Free Photothermal Bar-Chart Microfluidic Chips (PT-Chips) for Visual Quantitative Detection of Biomarkers, ChemRxiv, 2021, Preprint. DOI: 10.26434/chemrxiv.14131514.v14131511. |
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97. |
Li, XiuJun,* Zhou, You, " Microfluidic Devices for Biomedical Applications", 2nd Edition, Elsevier, 722 Pages. (Book II. ISBN: 978-0-12-819971-8) |
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96. |
Zhou, W.;+ Tavakoli, H.;+ Ma, L.;+ Bautista, C.; Li, X.* "Rapid disease diagnosis using low-cost paper and paper hybrid microfluidic devices ", In Multidisciplinary Microfluidic & Nanofluidic Lab-on-a-Chip: Principles & Applications; Elsevier, 2021, pp 325-360. DOI: 10.1016/B978-0-444-59432-7.00009-1. (Book Chapter #8). +: Denotes equal contributions. |
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95. |
Lv, M.;+ Zhou, W.;+ Tavakoli, H.;+ Bautista, C.; Xia, J.;* Wang, Z.; Li, X.* Aptamer-functionalized Metal-organic frameworks (MOFs) for biosensing, Biosens Bioelectron 2021, 176,112947. DOI: 10.1016/j.bios.2020.112947. (2019 IF 10.3)
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94. |
Benhabib, M.;* Li, X.J.*, “Paper-based microfluidic devices for low-cost assays”, In Microfluidic Devices for Biomedical Applications, 2nd ed.; Li, X. J., Zhou, Y., Eds.; Elsevier (Woodhead Publishing), 2021, pp 551-586. DOI: 10.1016/B1978-1010-1012-819971-819978.800006-819978. (Book Chapter #7)
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93. |
Gao, N.*; Li, X. J.*, “Controlled drug delivery using microfluidic devices”. In Microfluidic Devices for Biomedical Applications, 2nd Eds.; Elsevier (Woodhead Publishing), 2021, pp 205-224. DOI: 10.1016/B978-0-12-819971-8.00012-3. (Book Chapter #6)
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92. |
Zhou, W.; Sun, J.; Li, X.* Low-Cost Quantitative Photothermal Genetic Detection of Pathogens on a Paper Hybrid Device Using a Thermometer, Anal Chem 2020, 92, 14830-14837. DOI: 10.1021/acs.analchem.0c03700. (2019 IF 6.8) |
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91. |
Fu, G.; Li, X.; Wang, W.; Hou, R. Multiplexed tri-mode visual outputs of immunoassay signals on a clip-magazine-assembled photothermal biosensing disk, Biosens Bioelectron 2020, 170, 112646. DOI: 10.1016/j.bios.2020.112646. (2019 IF 10.3) |
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90. |
Yang, B.;* Jin, Q.; Huang, Q.; Chen, M.; Xu, L.; Shen, Y.; Xu, H.; Zhu, S.; Li, X.* Synergetic catalysis for chlorobenzene and NOx removal from waste incineration exhaust over MnNb0.4Ce0.2Ox catalysts: Performance and mechanism study, J Rare Earth 2020, 38, 1178-1189. DOI: 10.1016/j.jre.2020.06.013. |
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89. |
Prasad, K. S.; Abugalyon, Y.; Li, C.; Xu, F.; Li, X.* A new method to amplify colorimetric signals of paper-based nanobiosensors for simple & sensitive pancreatic cancer biomarker detection, Analyst 2020, 145, 5113-5117. DOI: 10.1039/D0AN00704H.
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88. |
Fu, G.;+ Zhou, W.;+ Li, X.* Remotely tunable microfluidic platform driven by nanomaterial-mediated on-demand photothermal pumping, Lab Chip 2020, 20, 2218-2227. DOI: 10.1039/D0LC00317D. (2019 IF 6.8) +: Denotes equal contributions.
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87. |
Zhou, W.; Feng, M.; Valadez, A.; Li, X.* One-Step Surface Modification to Graft DNA Codes on Paper: The Method, Mechanism and Its Application, Anal Chem 2020, 92, 10, 7045-7053. DOI: 10.1021/acs.analchem.0c00317. (2019 IF 6.8)
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86. |
Jin, Q.; Ma, L.; Zhou, W.; Shen, Y.; Fernandez-Delgado, O.; Li, X.* Smart Paper Transformer: New insight for enhanced catalytic efficiency and reusability of noble metal nanocatalysts, Chem Sci 2020, 11, 2915-2925. DOI: 10.1039/C9SC05287A. (2019 IF 9.3)
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85. |
Sanjay, S. T.;+ Li, M.;+ Zhou, W.; Li, X.C.; Li, X.* A Reusable PMMA/Paper Hybrid Plug-and-Play Microfluidic Device for an Ultrasensitive Immunoassay with a Wide Dynamic Range, Microsyst Nanoeng 2020, 6, 28. DOI: 10.1038/s41378-020-0143-5. (2019 IF 5.0) +: Denotes equal contributions.
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84. |
Jin, Q.;+ Ma, L.;+ Zhou, W.; Chintalapalle, R.; Shen, Y.*; Li, X.* Strong interaction between Au nanoparticles and porous polyurethane sponge enables efficient environmental catalysis with high reusability, Catalysis Today 2020, 358, 246-253. DOI: 10.1016/j.cattod.2020.01.023. (2019 IF 5.8)
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83. |
Zhou, W.; + Hu, K.;+ Kwee, S.; Tang, L.; Wang, Z.; Xia, J.; Li, X.* Gold Nanoparticle Aggregation-Induced Quantitative Photothermal Biosensing Using a Thermometer: A Simple and Universal Biosensing Platform, Anal Chem 2020, 92, 3, 2739-2747. DOI: 10.1021/acs.analchem.1029b04996. (2019 IF 6.8) +: Denotes equal contributions.
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82. |
Zhou, W.;+ Fu, G.;+ Li, X.* On-Demand Photothermal Bar-Chart Microfluidic Platform Using On-Chip Nanomaterial-Mediated Photothermal Effect As The Microfluidic Driving Force, Proc. IEEE Micr Elect 2020, 33, 125-128. DOI: 10.1109/MEMS46641.2020.9056141. +: Denotes equal contributions.
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81. |
Jin, Q.; Lu, B.; Pan, Y.; Tao, X.; Himmelhaver, C.; Shen, Y.;* Gu, S.; Zeng, Y.; Li, X.* Novel porous ceramic sheet supported metal reactors for continuous-flow catalysis, Catalysis Today 2020, 358, 324-332. DOI:10.1016/j.cattod.2019.12.006. (2019 IF 5.8)
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80. |
Prasad, K. S.; Cao, X.; Gao, N.; Jin, Q.; Sanjay, S. T.; Henao-Pabon, G.; Li, X.* A Low-Cost Nanomaterial-based Electrochemical Immunosensor on Paper for High-sensitivity Early Detection of Pancreatic Cancer, Sens Actuators B Chem 2020, 305, 127516. DOI: 10.1016/j.snb.2019.127516. (2019 IF 7.1)
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79. |
Jin, Q.; Shen, Y.; Li, X.; Zeng, Y. Resource utilization of waste deNOx catalyst for continuous-flow catalysis by supported metal reactors, Molecular Catalysis 2020, 480, 110634. DOI: 10.1016/j.mcat.2019.110634. |
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78. |
Fu, G.;* Zhu, Y.; Xu, K.; Wang, W.; Hou, R.; Li, X.* Photothermal Microfluidic Sensing Platform Using Near-Infrared Laser-Driven Multiplexed Dual-Mode Visual Quantitative Readout, Anal Chem 2019, 91, 13290-13296. DOI: 10.1021/acs.analchem.9b04059. (2019 IF 6.8)
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77. |
Shi, Q.; Liu, H.; Tang, D.; Li, Y.; Li, X.;* Xu, F.* Bio-Actuators based on Stimulus-Responsive Hydrogels and Their Emerging Biomedical Applications, NPG Asia Mater. 2019, 11, 64. (2019 IF 8.1) |
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76. |
Fu, G.;* Zhu, Y.; Wang, W.; Zhou, M.; Li, X.* Spatiotemporally Controllable Multiplexed Photothermal Microfluidic Pumping under Monitoring of On-Chip Thermal Imaging, ACS Sensors 2019, 4, 2481-2490. DOI: 10.1021/acssensors.9b01109. (2019 IF 7.3)
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75. |
Tang, R. H.; Liu, L. N.; Zhang, S. F.; He, X. C.; Li, X. J.; Xu, F.; Ni, Y. H.; Li, F. A review on advances in methods for modification of paper supports for use in point-of-care testing, Microchimica Acta 2019, 186, 521. (2019 IF 6.2) |
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74. |
Tavakoli, H.;+ Zhou, W.;+ Ma, L.;+ Perez, S.; Ibarra, A.; Xu, F.; Zhan, S.; Li, X.* Recent advances in microfluidic platforms for single-cell analysis in cancer biology, diagnosis and therapy, TRAC - Trend Anal Chem 2019, 117, 13-26. DOI: 10.1016/j.trac.2019.05.010. (2019 IF 9.8) +: Denotes equal contributions. |
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73. |
Wu, H.; Bao, Y.; Wang, L.; Li, X.; Sun, J. Mycobacterium marinum down-regulates miR-148a in macrophages in an EsxA-dependent manner, Int. Immunopharmacol 2019, 73, 41-48. |
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72. |
Dou, M.; Macias, N.; Shen, F.; Dien Bard, J.; Dominguez, D. C.;* Li, X.* Rapid and Accurate Pertussis Diagnosis on a Point-of-Care Biochip, EClinicalMedicine 2019, 8, 72-77. DOI: 10.1016/j.eclinm.2019.02.008. (2021 IF 17.03) |
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71. |
Gong, Y.; Zheng, Y.; Jin, B.; You, M.; Wang, J.; Li, X.; Lin, M.; Xu, F.; Li, F.; A Portable and Universal Upconversion Nanoparticle-Based Lateral Flow Assay Platform for Point-of-Care Testing, Talanta 2019, 201, 126-133. DOI: 10.1016/j.talanta.2019.1003.1105. (2019 IF 5.3) |
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70. |
Chen, J.; Lu, L.; Li, Y.; Ren, X.; Luo, H.; Gao, Y.; Yan, H.; Li, Y.; Qu, Y.; Yang, L.; Li, X.; Zeng, R. Preparation and evaluation of Bletilla striata polysaccharide/graphene oxide composite hemostatic sponge, Int. J. Biol. Macromol 2019, 130, 827-835. DOI: 10.1016/j.ijbiomac.2019.1002.1137. |
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69. |
Tavakoli,+ H., Zhou, W.,+ Ma, L.,+ Guo, Q., Li, X.*; Paper and paper hybrid microfluidic devices for point-of-care detection of infectious diseases. In: Nanotechnology and Microfluidics. Wiley-VCH, 2019, pp 177-209. DOI: 10.1002/9783527818341.ch6. (Invited Book Chapter #5; Peer-Reviewed) +: Denotes equal contributions. |
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68. |
Xu, X.; Wang, X.; Hu, J.; Gong, Y.; Wang, L.; Zhou, W.; Li, X.;* Xu, F.* A smartphone-based on-site nucleic acid testing platform at point-of-care settings, Electrophoresis 2019, 40, 914-921. DOI: 10.1002/elps.201800449.
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67. |
Jin, Q.; Shen, Y.;* Ma, L.; Zhu, S.; Zhang, J.; Zhou, W.; Wei, X.; Li, X.* Novel TiO 2 catalyst carriers with high thermostability for selective catalytic reduction of NO by NH 3 , Catalysis Today 2019, 327,279-287. DOI: 10.1016/j.cattod.2018.04.038. (2019 IF 5.8) |
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66. |
Dou, M.; Sanchez, J.; Tavakoli, H.; Gonzalez, J. E.; Sun, J.; Dien Bard, J.; Li, X.* A Low-Cost Microfluidic Platform for Rapid and Instrument-Free Detection of Whooping Cough, Anal Chim Acta 2019, 1065, 71-78. DOI: 10.1016/j.aca.2019.1003.1001. (2019 IF 6.0)
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65. |
Wei, X.; Li, X.* Multiplexed instrument-free bar-chart Spinchip integrated with nanoparticle-mediated magnetic aptasensors for visual quantitative detection of multiple pathogens, Proc. Micro Total Analysis Systems 2018, 22, 60-62. |
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64. | Zhou, W.; Li, X.* Simple one-step surface modification to graft DNA codes on paper devices and its biomedical application, Proc. Micro Total Analysis Systems 2018, 22, 1819-1021. |
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63. |
Wei, X.; Zhou, W.; Sanjay, S. T.; Zhang, J.; Jin, Q.; Dominguez, D. C.; Li, X. * Multiplexed Instrument-free Bar-chart SpinChip Integrated with Nanoparticle-mediated Magnetic Aptasensors for Visual Quantitative Detection of Multiple Pathogens, Anal Chem 2018, 90, 9888-9896. DOI: 10.1021/acs.analchem.8b02055. (2019 IF 6.8)
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62. |
Fu, G.; Sanjay, S. T.; Zhou, W.; Brekken, R.A.; Kirken, R.A.; Li, X. * Exploration of Nanoparticle-Mediated Photothermal Effect of TMB-H 2O 2 Colorimetric System and Its Application in a Visual Quantitative Photothermal Immunoassay , Anal Chem 2018, 90, 5930-5937. DOI: 10.1021/acs.analchem.8b00842. (2019 IF 6.8)
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61. |
Katla, S.K.; Zhang, J.; Castro, E.; Bernal, R. A.; Li, X.* Atomically-precise Au 25(SG) 18 nanoclusters: Rapid single-step synthesis and application in photothermal therapy , ACS Appl Mater Interfaces 2018, 10(1), 75-82. DOI: 10.1021/acsami.7b12614. (2019 IF 8.8) |
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60. |
Sanjay, S. T.; + Zhou, W.; + Dou, M.; + Tavakoli, H.; Ma, L.; Xu, F.; Li, X .* Recent Advances of Controlled Drug Delivery Using Microfluidic Platforms, Adv Drug Deliv Rev 2018, 128, 3-28. DOI: 10.1016/j.addr.2017.09.013. (2021 IF 17.9).
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59. | Sanjay, S. T.; Li, M.; Li, X. J. * A REUSABLE PAPER/POLYMER HYBRID PLUG-AND-PLAY MICROFLUIDIC PLATFORM FOR HIGH-SENSITIVITY IMMUNOASSAY, Proc. Micro Total Analysis Systems 2017, 21, 1463-1464. |
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58. | Dou, M.; Sanjay, S. T.; Li, X. J. * MULTIPLEX QUANTITATIVE LAMP DETECTION ON A PMMA/PAPER HYBRID SPINCHIP, Proc. Micro Total Analysis Systems 2017, 21, 1227-1228. |
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57. | Tang, R.; Yang, H.; Choi, J. R.; Gong, Y.; You, M.; Wen, T.; Li, A.; Li, X.; Xu, B.; Zhang, S., et al. Capillary blood for point-of-care testing, Crit. Rev. Clin. Lab. Sci. 2017, 54, 294-308. DOI: 10.1080/10408363.10402017.11343796. |
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56. |
Dou, M.; Sanjay, S. T.; Dominguez, D. C.; Zhan, S.; Li, X.* A Paper/Polymer Hybrid CD-Like Microfluidic SpinChip Integrated with DNA-Functionalized Graphene Oxide Nanosensors for multiplex qLAMP Detection, Chem Comm 2017, 53, 10886-10889. DOI: 10.1039/C1037CC03246C. (2019 IF 6.0)
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55. |
Tang, R.; Yang, H.; Choi, J. R.; Gong, Y.; Hu, J.; Wen, T.; Li, X. ; Xu, B.; Mei, Q.; Xu, F. Paper-based device with on-chip reagent storage for rapid extraction of DNA from biological samples, Microchimica Acta 2017, 184, 2141-2150. DOI:10.1007/s00604-017-2225-0
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54. |
Tang, R.; Yang, H.; Gong, Y.; Liu, Z.; Li, X.; Wen, T.; Qu, Z.; Zhang, S.; Mei, Q.; Xu, F. Improved Analytical Sensitivity of Lateral Flow Assay using Sponge for HBV Nucleic Acid Detection, Sci. Rep . 2017, 7, 1360. DOI:10.1038/s41598-017-01558-x.
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53. |
Shen, F.*; Li, Y.; Liu, Z.; Li, X* . Study of flow behaviors of droplet merging and splitting in microchannels using Micro-PIV measurement, Microfluid Nanofluid 2017, 21, 66. DOI: 10.1007/s10404-017-1902-y |
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52. |
Zhang, J.; Wei, X.; Zeng, R.; Xu, F.; Li, X.* Stem cell culture and differentiation in microfluidic devices towards organ-on-a-chip, Future Sci OA 2017, 3(2), FSO187. DOI: 10.4155/fsoa-2016-0091.
+ Top 10 Cited Papers since the inauguration of the journal (01/20/2019) . + Top Downloaded Article.
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51. |
Zhan, S.*; Zhang, Y.; Shi, Q.; Li, X .* Efficient NH 3-SCR removal of NOx with highly ordered mesoporous WO3(x)-CeO 2 at low temperatures , Appl. Catal. B: Environmental . 2017, 203, 199-209. (2019 IF 16.7)
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50. |
Dou, M.; Sanjay, S. T.; Dominguez, D. C.; Liu, P.; Xu, F., Li, X.* Multiplexed Instrument-Free Meningitis Diagnosis on a Polymer/Paper Hybrid Microfluidic Biochip, Biosens Bioelectron 2017, 87, 865-873. DOI: 10.1016/j.bios.2016.09.033. (2019 IF 10.3) |
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49. |
Zhang, Q.; Ouellet, H.; D., W.; Jiang, G.; Liu, W., Li, X .; Qian, W.; Sun, J., EsxA membrane-permeabilizing activity plays a key role in mycobacterial cytosolic translocation and virulence: effects of single mutation at glutamine 5, Sci. Rep . 2016, 6, 32618. |
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48. |
Dou, M.; Sanjay, S. T.; Li, X. J.* A polymer/paper hybrid microfluidic device for multiplexed instrument-free detection of bacterial meningitis, Proc. Micro Total Analysis Systems 2016, 20, 607-608.
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47. |
Sanjay, S. T.; Dou, M.; Sun, J.; Li, X.* A paper/polymer hybrid microfluidic microplate for rapid quantitative detection of multiple disease biomarkers, Sci. Rep. 2016, 6, 30474. DOI: 10.1038/srep30474 .
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46. |
Dou, M.; + Lopez, J.; + Rios, M.; + Garcia, O.; Xiao, C.; Eastman, M.; Li, X., * A fully battery-powered inexpensive spectrophotometric system for high-sensitivity point-of-care analysis on a microfluidic chip, Analyst 2016, 141, 3898-3903. (Invited for the Analyst Emerging Investigator themed issue).
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Fu, G.; Sanjay, S. T.; Li, X *. Cost-effective and sensitive colorimetric immunosensing using an iron oxide-to-Prussian blue nanoparticles conversion strategy, Analyst 2016, 141, 3883-3889. (Invited for the Analyst Emerging Investigator themed issue ).
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Li, X.*; Miniaturized Platforms & Methods for Pharmaceutical Studies (Editorial #1; Thematic Issue for Current Pharmaceutical Biotechnology), Curr Pharm Biotechnol 2016, 17, 753-754. DOI: 10.2174/138920101709160606115045
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43. | Sanjay, S.T.; Dou, M.; Fu, G.; Xu, F.; Li, X *. Controlled Drug Delivery Using Microdevices. Curr Pharm Biotechnol 2016, 17, 772-787. |
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Fu, G.; Sanjay, S.T.; Dou, M.; Li, X *. " Nanoparticle-mediated photothermal effect enables a new method for quantitative biochemical analysis using a thermometer ", Nanoscale 2016, 8, 5422-5427. (2019 IF 6.9) |
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Dou, M.; Garcia, J. M.; Zhan, S.; Li, X* . Interfacial nano-biosensing in microfluidic droplets for high-sensitivity detection of low-solubility molecules. Chem Comm 2016, 52, 3470-3473. (inside Front Cover ) (2019 IF 6.0)
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40. |
Choi, J. R.; Hu, J.; Tang, R. h.; Gong, Y.; Feng, S.; Ren, H.; Wen, T.; Li, X. ; Wan Abas, W. A. B.; Pingguan-Murphy, B.; Xu, F. An Integrated Paper-based Sample-to-Answer Biosensor for Nucleic Acid Testing at the Point of Care. Lab Chip 2016, 16, 611-621. DOI: 10.1039/C5LC01388G.
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Qi, H.; Huang, G.; Han, Y. L.; Wang, L.; Li, X. J. , Wang, S.; Lu, T.J.;Xu, F.. In vitro spatially organizing the differentiation in individual multicellular stem cell aggregates , Crit Rev Biotech 2016, 36(1): 20-31. (2019 IF 8.1)
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38. | Sanjay, S. T.; Dou, M.; Li, X. J .* A paper/PMMA hybrid microfluidic microplate for detection of infectious diseases. Proc. Micro Total Analysis Systems 2015, 19, 951-953. |
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Sanjay, S. T.; Fu, G.; Dou, M.; Xu, F.; Liu, R.; Qi, H.; Li, X.* " Biomarker detection for disease diagnosis using cost-effective microfluidic platforms" Analyst 2015, 140, 7062-7081, DOI: 10.1039/C5AN00780A . ( Front Cover )
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36. |
M. Dou, S. T. Sanjay, M. Benhabib, F. Xu and X. Li* , Low-cost Bioanalysis on Paper-based & Its Hybrid Microfluidic Platforms, Talanta , 2015, 145, 43-54. http://dx.doi.org/10.1016/j.talanta.2015.04.068. ( Invited) (2019 IF 5.3)
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35. | M. Dou, D. C. Dominguez and X. Li* ," A Versatile Paper /PDMS Hybrid Microfluidic biochip for low-cost global Infectious Disease Diagnosis", Proc. Micro Total Analysis Systems, 2014, 18, 1048-1050. |
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Xu, X., Akay, A., Wei, H., Pingguan-Murphy, B., Erlandsson, B., Li, X. , Lee, W., Hu, J., Wang, L., Xu, F.. Advances in Smartphone-Based Point-of-Care Diagnostics, Proc IEEE 2015, 103, 236-247. (2019 IF 10.3)
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Dou, M.; Dominguez, D. C.; Li, X. J.* ; Sanchez, J.; Scott, G. " A versatile PDMS/paper hybrid microfluidic platform for rapid and sensitive infectious diseases diagnosis", Anal Chem 2014, 86 (15), 7978-7986. (2019 IF 6.8) |
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Shen, F.; Li, X. J.* ; Li, P. C. H. " Study of flow behaviors on single-cell manipulation and shear stress reduction in microfluidic chips using CFD simulations", Biomicrofluidics , 2014, 8, 014109 (1-12). |
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31. |
Li, X. J. *; Li, P. C. H.* "Cytosolic calcium measurement for single-cell drug efficacy and cardiotoxicity evaluations using microfluidic biochips", Can. J. Pure & Appl. Sci. 2014, 8, 2663-2669. |
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Zuo, P., Li, X.J.* , Dominguez, D.C., Ye, B.C., " A PDMS /paper /glass hybrid microfluidic biochip integrated with aptamer-functionalized graphene oxide nano-biosensors for one-step multiplexed pathogen detection", Lab Chip . 2013, 13, 3921-3928. (2019 IF 6.8) |
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Li, Xiujun,* Zhou, You, " Microfluidic Devices for Biomedical Applications ", Woodhead Publishing (a part of Elsevier), 2013, 684 Pages. ( Book I, ISBN 0 85709 697 4; ISBN-13: 978 0 85709 697 5). Also available from Elsevier Store and Amazon. |
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28. | Gao, N.; Li, X. J ., Controlled drug delivery using microfluidic devices. In Microfluidic Devices for Biomedical Applications, Woodhead Publishing: 2013, 167-184. (Book Chapter #4) | Full Text | ||
27. | Benhabib, M.; Li, X. J ., Strategies for Conducting Low-Cost Assays in Paper-Based Microfluidic Devices. In Microfluidic Devices for Biomedical Applications, Woodhead Publishing: 2013, 492-526. (Book Chapter #3) | Full Text | ||
26. | X. J. Li,* P. Zuo and D. C. Dominguez, A PDMS / PAPER HYBRID MICROFLUIDIC DEVICE INTEGRATED WITH GRAPHENE OXIDE-BASED NANO-BIOSENSORS FOR MULTIPLEXED PATHOGEN DETECTION, Proc. Micro Total Analysis Systems , 2013, 17, 705-707. | Full Text | ||
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Li, XiuJun .*, Valadez, Alejandra V., Zuo, Peng, Nie, Zhihong, " Microfluidic 3D cell culture: potential application for tissue-based bioassays", Bioanalysis , 2012, 4(12), 1509-1525. |
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For more publications, click the corresponding link on the left panel, or >>> Earlier Publications (1999-2011)*Please note: articles provided here are only for educational use. Reprints are subject to the copyright of respective publishers. |
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