based microfluidic devices by plasma treatment X Li, J Tian, T Nguyen, W Shen Analytical chemistry 80 (23), 9131-9134, 2008 | 726 | 2008 |
Electrogenerated chemiluminescence detection in paper-based microfluidic sensors JL Delaney, CF Hogan, J Tian, W Shen Analytical chemistry 83 (4), 1300-1306, 2011 | 674 | 2011 |
Fabrication of paper-based microfluidic sensors by printing X Li, J Tian, G Garnier, W Shen Colloids and surfaces B: Biointerfaces 76 (2), 564-570, 2010 | 507 | 2010 |
Thread as a versatile material for low-cost microfluidic diagnostics X Li, J Tian, W Shen ACS applied materials & interfaces 2 (1), 1-6, 2010 | 285 | 2010 |
Liquid marble for gas sensing J Tian, T Arbatan, X Li, W Shen Chemical Communications 46 (26), 4734-4736, 2010 | 266 | 2010 |
Progress in patterned paper sizing for fabrication of paper-based microfluidic sensors X Li, J Tian, W Shen Cellulose 17, 649-659, 2010 | 233 | 2010 |
Liquid marbles as micro-bioreactors for rapid blood typing T Arbatan, L Li, J Tian, W Shen Adv. Healthc. Mater 1 (1), 80-83, 2012 | 229 | 2012 |
Paper‐Based blood typing device that reports patient’s blood type “in writing” M Li, J Tian, M Al‐Tamimi, W Shen Angewandte Chemie 124 (22), 5593-5597, 2012 | 213 | 2012 |
Highly stretchable and compressible cellulose ionic hydrogels for flexible strain sensors R Tong, G Chen, D Pan, H Qi, R Li, J Tian, F Lu, M He Biomacromolecules 20 (5), 2096-2104, 2019 | 179 | 2019 |
Quantitative biomarker assay with microfluidic paper-based analytical devices X Li, J Tian, W Shen Analytical and bioanalytical chemistry 396, 495-501, 2010 | 165 | 2010 |
Autonomous self-healing, antifreezing, and transparent conductive elastomers R Li, T Fan, G Chen, K Zhang, B Su, J Tian, M He Chemistry of Materials 32 (2), 874-881, 2020 | 146 | 2020 |
Biosurface engineering through ink jet printing MS Khan, D Fon, X Li, J Tian, J Forsythe, G Garnier, W Shen Colloids and Surfaces B: Biointerfaces 75 (2), 441-447, 2010 | 125 | 2010 |
Barcode-like paper sensor for smartphone diagnostics: An application of blood typing L Guan, J Tian, R Cao, M Li, Z Cai, W Shen Analytical chemistry 86 (22), 11362-11367, 2014 | 114 | 2014 |
Respirable liquid marble for the cultivation of microorganisms J Tian, N Fu, XD Chen, W Shen Colloids and Surfaces B: Biointerfaces 106, 187-190, 2013 | 108 | 2013 |
Patternable transparent and conductive elastomers towards flexible tactile/strain sensors G Chen, M He, J Tian, B Su Journal of Materials Chemistry C 5 (33), 8475-8481, 2017 | 103 | 2017 |
Porous liquid marble shell offers possibilities for gas detection and gas reactions J Tian, T Arbatan, X Li, W Shen Chemical Engineering Journal 165 (1), 347-353, 2010 | 103 | 2010 |
Ultrastretchable and antifreezing double-cross-linked cellulose ionic hydrogels with high strain sensitivity under a broad range of temperature R Tong, G Chen, D Pan, J Tian, H Qi, R Li, F Lu, M He ACS sustainable chemistry & engineering 7 (16), 14256-14265, 2019 | 97 | 2019 |
Rapid shape memory TEMPO-oxidized cellulose nanofibers/polyacrylamide/gelatin hydrogels with enhanced mechanical strength N Li, W Chen, G Chen, J Tian Carbohydrate polymers 171, 77-84, 2017 | 91 | 2017 |
Mechanisms of red blood cells agglutination in antibody-treated paper P Jarujamrus, J Tian, X Li, A Siripinyanond, J Shiowatana, W Shen Analyst 137 (9), 2205-2210, 2012 | 86 | 2012 |
Polymerizable deep eutectic solvent-based mechanically strong and ultra-stretchable conductive elastomers for detecting human motions K Zhang, G Chen, J Yang, J Tian, M He Journal of Materials Chemistry A 9 (8), 4890-4897, 2021 | 73 | 2021 |