Electrically-transduced chemical sensors based on two-dimensional nanomaterials Z Meng, RM Stolz, L Mendecki, KA Mirica Chemical reviews 119 (1), 478-598, 2019 | 579 | 2019 |
Two-dimensional chemiresistive covalent organic framework with high intrinsic conductivity Z Meng, RM Stolz, KA Mirica Journal of the American Chemical Society 141 (30), 11929-11937, 2019 | 327 | 2019 |
Iptycene-derived crown ether hosts for molecular recognition and self-assembly Y Han, Z Meng, YX Ma, CF Chen Accounts of chemical research 47 (7), 2026-2040, 2014 | 239 | 2014 |
Welding metallophthalocyanines into bimetallic molecular meshes for ultrasensitive, low-power chemiresistive detection of gases Z Meng, A Aykanat, KA Mirica Journal of the American Chemical Society 141 (5), 2046-2053, 2018 | 237 | 2018 |
Triptycene‐Based Chiral Macrocyclic Hosts for Highly Enantioselective Recognition of Chiral Guests Containing a Trimethylamino Group GW Zhang, PF Li, Z Meng, HX Wang, Y Han, CF Chen Angewandte Chemie 128 (17), 5390-5394, 2016 | 183 | 2016 |
Proton conduction in 2D aza-fused covalent organic frameworks Z Meng, A Aykanat, KA Mirica Chemistry of Materials 31 (3), 819-825, 2018 | 182 | 2018 |
Employing conductive metal–organic frameworks for voltammetric detection of neurochemicals M Ko, L Mendecki, AM Eagleton, CG Durbin, RM Stolz, Z Meng, KA Mirica Journal of the American Chemical Society 142 (27), 11717-11733, 2020 | 174 | 2020 |
Hierarchical tuning of the performance of electrochemical carbon dioxide reduction using conductive two-dimensional metallophthalocyanine based metal–organic frameworks Z Meng, J Luo, W Li, KA Mirica Journal of the American Chemical Society 142 (52), 21656-21669, 2020 | 138 | 2020 |
Covalent organic frameworks as multifunctional materials for chemical detection Z Meng, KA Mirica Chemical Society Reviews 50 (24), 13498-13558, 2021 | 130 | 2021 |
Stepwise motion in a multivalent [2](3) catenane Z Meng, Y Han, LN Wang, JF Xiang, SG He, CF Chen Journal of the American chemical Society 137 (30), 9739-9745, 2015 | 105 | 2015 |
Tristable [n] rotaxanes: from molecular shuttle to molecular cable car Z Meng, JF Xiang, CF Chen Chemical Science 5 (4), 1520-1525, 2014 | 97 | 2014 |
Porous scaffolds for electrochemically controlled reversible capture and release of ethylene L Mendecki, M Ko, X Zhang, Z Meng, KA Mirica Journal of the American Chemical Society 139 (48), 17229-17232, 2017 | 62 | 2017 |
Two-dimensional d-π conjugated metal-organic framework based on hexahydroxytrinaphthylene Z Meng, KA Mirica Nano Research 14, 369-375, 2021 | 54 | 2021 |
Directional molecular transportation based on a catalytic stopper-leaving rotaxane system Z Meng, JF Xiang, CF Chen Journal of the American Chemical Society 138 (17), 5652-5658, 2016 | 54 | 2016 |
A novel pentiptycene bis (crown ether)-based [2](2) rotaxane whose two DB24C8 rings act as flapping wings of a butterfly YX Ma, Z Meng, CF Chen Organic letters 16 (7), 1860-1863, 2014 | 44 | 2014 |
Unraveling the Electrical and Magnetic Properties of Layered Conductive Metal‐Organic Framework With Atomic Precision Z Meng, CG Jones, S Farid, IU Khan, HM Nelson, KA Mirica Angewandte Chemie 134 (6), e202113569, 2022 | 42 | 2022 |
A molecular pulley based on a triply interlocked [2] rotaxane Z Meng, CF Chen Chemical communications 51 (39), 8241-8244, 2015 | 41 | 2015 |
Molecular engineering of multifunctional metallophthalocyanine-containing framework materials A Aykanat, Z Meng, G Benedetto, KA Mirica Chemistry of Materials 32 (13), 5372-5409, 2020 | 38 | 2020 |
Synthesis of substituted iptycenes YX Ma, Z Meng, CF Chen Synlett 26 (01), 6-30, 2015 | 37 | 2015 |
Guest-dependent directional complexation based on triptycene derived oxacalixarene: formation of oriented rotaxanes HX Wang, Z Meng, JF Xiang, YX Xia, Y Sun, SZ Hu, H Chen, J Yao, ... Chemical Science 7 (1), 469-474, 2016 | 34 | 2016 |