| Recent development of pH-responsive polymers for cancer nanomedicine H Tang, W Zhao, J Yu, Y Li, C Zhao Molecules 24 (1), 4, 2018 | 200 | 2018 |
| Polycarbonate-based ultra-pH sensitive nanoparticles improve therapeutic window X Wang, J Wilhelm, W Li, S Li, Z Wang, G Huang, J Wang, H Tang, ... Nature communications 11 (1), 5828, 2020 | 54 | 2020 |
| Lipoates as building blocks of sulfur-containing branched macromolecules H Tang, NV Tsarevsky Polymer Chemistry 6 (39), 6936-6945, 2015 | 36 | 2015 |
| Progress in photo-responsive polypeptide derived nano-assemblies L Yang, H Tang, H Sun Micromachines 9 (6), 296, 2018 | 35 | 2018 |
| Modification of Cu2+ into Zr-based metal–organic framework (MOF) with carboxylic units as an efficient heterogeneous catalyst for aerobic epoxidation of olefins J Zhao, W Wang, H Tang, D Ramella, Y Luan Molecular Catalysis 456, 57-64, 2018 | 30 | 2018 |
| Preparation and functionalization of linear and reductively degradable highly branched cyanoacrylate‐based polymers H Tang, NV Tsarevsky Journal of Polymer Science Part A: Polymer Chemistry 54 (23), 3683-3693, 2016 | 25 | 2016 |
| A perspective on reversibility in controlled polymerization systems: Recent progress and new opportunities H Tang, Y Luan, L Yang, H Sun Molecules 23 (11), 2870, 2018 | 22 | 2018 |
| Synthesis of multifunctional miktoarm star polymers via an RGD peptide-based RAFT agent C Chen, X Guo, J Du, B Choi, H Tang, A Feng, SH Thang Polymer Chemistry 10 (2), 228-234, 2019 | 20 | 2019 |
| A facile 2 H-chromene dimerization through an ortho-quinone methide intermediate catalyzed by a sulfonyl derived MIL-101 MOF X Du, X Li, H Tang, W Wang, D Ramella, Y Luan New Journal of Chemistry 42 (15), 12722-12728, 2018 | 14 | 2018 |
| Homodimerization of 2 H-chromenes catalyzed by Brønsted-acid derived UiO-66 MOFs Z Miao, Z Zhou, H Tang, M Yu, D Ramella, X Du, Y Luan Catalysis Science & Technology 8 (13), 3406-3413, 2018 | 13 | 2018 |
| Synthesis of zwitterionic polymers by living/controlled radical polymerization and its applications L Zhi, T Houliang, F Anchao, T San H Progress in Chemistry 30 (8), 1097, 2018 | 9 | 2018 |
| Method for making photochromic contact lenses F Jing, F Chang, H Tang US Patent 11,999,908, 2024 | 3 | 2024 |
| Contact lens with phosphorylcholine-modified polyvinylalcohols therein F Chang, H Tang, TV Holland, AK Sniady US Patent 11,061,169, 2021 | 2 | 2021 |
| Reversible Addition-Fragmentation Chain Transfer Polymerization of 2-Chloroethyl Methacrylate and Post-Polymerization Modification A Feng, H Tang, Y Luan Macromolecular Research 27 (7), 686-692, 2019 | 2 | 2019 |
| Hypervalent iodine‐based initiators and efficient chain transfer agents for the synthesis of branched polymers from crosslinkers R Kumar, KD Sayala, H Tang, NV Tsarevsky Polymer International 71 (6), 637-645, 2022 | 1 | 2022 |
| Method for making hevl-filtering contact lenses H Tang, AK Sniady, F Chang, TV Holland US Patent App. 18/321,416, 2023 | | 2023 |
| Uv/hevl-filtering contact lenses F Chang, TV Holland, AK Sniady, H Tang US Patent App. 18/321,435, 2023 | | 2023 |
| Method for making uv and hevl-absorbing ophthalmic lenses F Chang, TV Holland, H Tang, AK Sniady US Patent App. 18/308,210, 2023 | | 2023 |
| Contact lens with optical prophylaxis M Acerson, DO Baumann, D Cefalo, F Chang, P Haaland, T Holland, ... US Patent App. 17/978,286, 2023 | | 2023 |
| Method for making photofunctional contact lenses H Tang, F Chang US Patent App. 17/688,022, 2022 | | 2022 |
