| Protein–inorganic hybrid nanoflowers J Ge, J Lei, RN Zare Nature nanotechnology 7 (7), 428-432, 2012 | 1113 | 2012 |
| One-pot synthesis of protein-embedded metal–organic frameworks with enhanced biological activities F Lyu, Y Zhang, RN Zare, J Ge, Z Liu Nano letters 14 (10), 5761-5765, 2014 | 855 | 2014 |
| Drug release from electric-field-responsive nanoparticles J Ge, E Neofytou, TJ Cahill III, RE Beygui, RN Zare ACS nano 6 (1), 227-233, 2012 | 550 | 2012 |
| Facile synthesis of multiple enzyme-containing metal–organic frameworks in a biomolecule-friendly environment X Wu, J Ge, C Yang, M Hou, Z Liu Chemical Communications 51 (69), 13408-13411, 2015 | 520 | 2015 |
| Enhanced activity of immobilized or chemically modified enzymes Y Zhang, J Ge, Z Liu AcS catalysis 5 (8), 4503-4513, 2015 | 431 | 2015 |
| Encapsulation of single enzyme in nanogel with enhanced biocatalytic activity and stability M Yan, J Ge, Z Liu, P Ouyang Journal of the American chemical Society 128 (34), 11008-11009, 2006 | 388 | 2006 |
| Packaging and delivering enzymes by amorphous metal-organic frameworks X Wu, H Yue, Y Zhang, X Gao, X Li, L Wang, Y Cao, M Hou, H An, ... Nature communications 10 (1), 5165, 2019 | 264 | 2019 |
| Defect-induced activity enhancement of enzyme-encapsulated metal-organic frameworks revealed in microfluidic gradient mixing synthesis C Hu, Y Bai, M Hou, Y Wang, L Wang, X Cao, CW Chan, H Sun, W Li, ... Science advances 6 (5), eaax5785, 2020 | 251 | 2020 |
| Metal–organic frameworks and inorganic nanoflowers: a type of emerging inorganic crystal nanocarrier for enzyme immobilization X Wu, M Hou, J Ge Catalysis Science & Technology 5 (12), 5077-5085, 2015 | 251 | 2015 |
| Polydopamine tethered enzyme/metal–organic framework composites with high stability and reusability X Wu, C Yang, J Ge, Z Liu Nanoscale 7 (45), 18883-18886, 2015 | 200 | 2015 |
| Immobilization on metal–organic framework engenders high sensitivity for enzymatic electrochemical detection C Zhang, X Wang, M Hou, X Li, X Wu, J Ge ACS applied materials & interfaces 9 (16), 13831-13836, 2017 | 176 | 2017 |
| Spatial co-localization of multi-enzymes by inorganic nanocrystal–protein complexes Z Li, Y Zhang, Y Su, P Ouyang, J Ge, Z Liu Chemical Communications 50 (83), 12465-12468, 2014 | 171 | 2014 |
| Recent advances in nanostructured biocatalysts J Ge, D Lu, Z Liu, Z Liu Biochemical Engineering Journal 44 (1), 53-59, 2009 | 167 | 2009 |
| Green synthesis of enzyme/metal-organic framework composites with high stability in protein denaturing solvents X Wu, C Yang, J Ge Bioresources and bioprocessing 4, 1-8, 2017 | 146 | 2017 |
| Rapid detection of phenol using a membrane containing laccase nanoflowers L Zhu, L Gong, Y Zhang, R Wang, J Ge, Z Liu, RN Zare Chemistry–An Asian Journal 8 (10), 2358-2360, 2013 | 146 | 2013 |
| Lipase nanogel catalyzed transesterification in anhydrous dimethyl sulfoxide J Ge, D Lu, J Wang, Z Liu Biomacromolecules 10 (6), 1612-1618, 2009 | 129 | 2009 |
| Highly active enzyme–metal nanohybrids synthesized in protein–polymer conjugates X Li, Y Cao, K Luo, Y Sun, J Xiong, L Wang, Z Liu, J Li, J Ma, J Ge, H Xiao, ... Nature Catalysis 2 (8), 718-725, 2019 | 125 | 2019 |
| Protein–polymer hybrid nanoparticles for drug delivery J Ge, E Neofytou, J Lei, RE Beygui, RN Zare Small 8 (23), 3573, 2012 | 109 | 2012 |
| Temperature-responsive enzyme–polymer nanoconjugates with enhanced catalytic activities in organic media J Zhu, Y Zhang, D Lu, RN Zare, J Ge, Z Liu Chemical Communications 49 (54), 6090-6092, 2013 | 81 | 2013 |
| Ink-jet printing an optimal multi-enzyme system Y Zhang, F Lyu, J Ge, Z Liu Chemical Communications 50 (85), 12919-12922, 2014 | 79 | 2014 |
