Design of biomimetic fibrillar interfaces: 2. Mechanics of enhanced adhesion CY Hui, NJ Glassmaker, T Tang, A Jagota Journal of the Royal Society Interface 1 (1), 35-48, 2004 | 322 | 2004 |
Stabilization mechanism and chemical demulsification of water-in-oil and oil-in-water emulsions in petroleum industry: A review D Wang, D Yang, C Huang, Y Huang, D Yang, H Zhang, Q Liu, T Tang, ... Fuel 286, 119390, 2021 | 208 | 2021 |
Adsorption kinetics of asphaltenes at oil/water interface: Effects of concentration and temperature S Zhang, L Zhang, X Lu, C Shi, T Tang, X Wang, Q Huang, H Zeng Fuel 212, 387-394, 2018 | 167 | 2018 |
Supramolecular assemblies in functional siRNA delivery: where do we stand? HM Aliabadi, B Landry, C Sun, T Tang, H Uludağ Biomaterials 33 (8), 2546-2569, 2012 | 167 | 2012 |
Molecular dynamics simulations of DNA/PEI complexes: effect of PEI branching and protonation state C Sun, T Tang, H Uludağ, JE Cuervo Biophysical journal 100 (11), 2754-2763, 2011 | 159 | 2011 |
Structure of homopolymer DNA− CNT hybrids S Manohar, T Tang, A Jagota The Journal of Physical Chemistry C 111 (48), 17835-17845, 2007 | 146 | 2007 |
Probing the effect of side-chain length on the aggregation of a model asphaltene using molecular dynamics simulations C Jian, T Tang, S Bhattacharjee Energy & fuels 27 (4), 2057-2067, 2013 | 142 | 2013 |
Can a fibrillar interface be stronger and tougher than a non-fibrillar one? T Tang, CY Hui, NJ Glassmaker Journal of the Royal Society Interface 2 (5), 505-516, 2005 | 142 | 2005 |
Reduction of water/oil interfacial tension by model asphaltenes: the governing role of surface concentration C Jian, MR Poopari, Q Liu, N Zerpa, H Zeng, T Tang The Journal of Physical Chemistry B 120 (25), 5646-5654, 2016 | 138 | 2016 |
Collapse of single-walled carbon nanotubes T Tang, A Jagota, CY Hui, NJ Glassmaker Journal of Applied Physics 97 (7), 2005 | 115 | 2005 |
Modeling liquid bridge between surfaces with contact angle hysteresis H Chen, A Amirfazli, T Tang Langmuir 29 (10), 3310-3319, 2013 | 103 | 2013 |
Molecular dynamics investigation on the aggregation of Violanthrone78-based model asphaltenes in toluene C Jian, T Tang, S Bhattacharjee Energy & fuels 28 (6), 3604-3613, 2014 | 100 | 2014 |
Adhesion between single-walled carbon nanotubes T Tang, A Jagota, CY Hui Journal of Applied Physics 97 (7), 2005 | 75 | 2005 |
A robust aqueous-processable polymer binder for long-life, high-performance lithium sulfur battery H Yi, T Lan, Y Yang, H Zeng, T Zhang, T Tang, C Wang, Y Deng Energy Storage Materials 21, 61-68, 2019 | 67 | 2019 |
Bi2O3 Nanosheets Grown on Carbon Nanofiber with Inherent Hydrophobicity for High-Performance CO2 Electroreduction in a Wide Potential Window SQ Liu, E Shahini, MR Gao, L Gong, PF Sui, T Tang, H Zeng, JL Luo ACS nano 15 (11), 17757-17768, 2021 | 61 | 2021 |
Characterizing the performance of a single-layer fabric system through a heat and mass transfer model-Part I: Heat and mass transfer model D Ding, T Tang, G Song, A McDonald Textile Research Journal 81 (4), 398-411, 2011 | 61 | 2011 |
Aqueous-processable polymer binder with strong mechanical and polysulfide-trapping properties for high performance of lithium–sulfur batteries H Yi, T Lan, Y Yang, Z Lei, H Zeng, T Tang, C Wang, Y Deng Journal of Materials Chemistry A 6 (38), 18660-18668, 2018 | 59 | 2018 |
How pinning and contact angle hysteresis govern quasi-static liquid drop transfer H Chen, T Tang, H Zhao, KY Law, A Amirfazli Soft Matter 12 (7), 1998-2008, 2016 | 58 | 2016 |
Molecular modeling of polynucleotide complexes D Meneksedag-Erol, T Tang, H Uludağ Biomaterials 35 (25), 7068-7076, 2014 | 58 | 2014 |
Liquid transfer mechanism between two surfaces and the role of contact angles H Chen, T Tang, A Amirfazli Soft matter 10 (15), 2503-2507, 2014 | 57 | 2014 |