| Systematic process intensification using building blocks SE Demirel*, J Li*, MMF Hasan Computers & Chemical Engineering 105, 2-38, 2017 | 131 | 2017 |
| Systematic process intensification SE Demirel, J Li, MMF Hasan Current Opinion in Chemical Engineering 25, 108-113, 2019 | 49 | 2019 |
| Process synthesis using block superstructure with automated flowsheet generation and optimization J Li, SE Demirel, MMF Hasan AIChE Journal 64 (8), 3082-3100, 2018 | 49 | 2018 |
| A general framework for process synthesis, integration, and intensification SE Demirel, J Li, MMF Hasan Industrial & Engineering Chemistry Research 58 (15), 5950-5967, 2019 | 48 | 2019 |
| Process integration using block superstructure J Li, SE Demirel, MMF Hasan Industrial & Engineering Chemistry Research 57 (12), 4377-4398, 2018 | 42 | 2018 |
| Membrane separation process design and intensification SE Demirel, J Li, MMF Hasan Industrial & Engineering Chemistry Research 60 (19), 7197-7217, 2021 | 34 | 2021 |
| Capturing molecular interactions in graph neural networks: a case study in multi-component phase equilibrium S Qin, S Jiang, J Li, P Balaprakash, RC Van Lehn, VM Zavala Digital Discovery 2 (1), 138-151, 2023 | 33 | 2023 |
| Sustainable process intensification using building blocks SE Demirel, J Li, M El-Halwagi, MMF Hasan ACS Sustainable Chemistry & Engineering 8 (48), 17664-17679, 2020 | 29 | 2020 |
| Design standardization of unit operations for reducing the capital intensity and cost of small‐scale chemical processes A Arora, J Li, MS Zantye, MMF Hasan AIChE Journal 66 (2), e16802, 2020 | 25 | 2020 |
| Fuel gas network synthesis using block superstructure J Li, SE Demirel, MMF Hasan Processes 6 (3), 23, 2018 | 20 | 2018 |
| Building block-based synthesis and intensification of work-heat exchanger networks (WHENS) J Li, SE Demirel, MMF Hasan Processes 7 (1), 23, 2019 | 19 | 2019 |
| Simultaneous process synthesis and process intensification using building blocks J Li, SE Demirel, MMF Hasan Computer Aided Chemical Engineering 40, 1171-1176, 2017 | 15 | 2017 |
| A general framework for process synthesis, integration and intensification SE Demirel, J Li, MMF Hasan Computer Aided Chemical Engineering 44, 445-450, 2018 | 12 | 2018 |
| SPICE_MARS: A process synthesis framework for membrane-assisted reactive separations MS Monjur, SE Demirel, J Li, MMF Hasan Industrial & Engineering Chemistry Research 60 (20), 7635-7655, 2021 | 11 | 2021 |
| Adaptive conformer sampling for property prediction using the conductor-like screening model for real solvents J Li, CT Maravelias, RC Van Lehn Industrial & Engineering Chemistry Research 61 (25), 9025-9036, 2022 | 10 | 2022 |
| A computer-aided platform for simultaneous process synthesis and intensification MS Monjur, SE Demirel, J Li, MMF Hasan Computer Aided Chemical Engineering 50, 287-293, 2021 | 7 | 2021 |
| Systematic process intensification involving zeotropic distillation J Li, SE Demirel, MMF Hasan Computer Aided Chemical Engineering 47, 421-426, 2019 | 7 | 2019 |
| A parametric approach to identify synergistic domains of process intensification for reactive separation J Li, MMF Hasan Chemical Engineering Science 267, 118337, 2023 | 5 | 2023 |
| Process design frameworks for economic utilization of small-scale and unconventional feedstocks A Arora, J Li, MS Zantye, MMF Hasan Computer aided chemical engineering 47, 83-88, 2019 | 5 | 2019 |
| An explainable classification framework for determining and understanding the suitability of solvent extraction for bioproduct recovery J Li, RC Van Lehn, CT Maravelias ACS Sustainable Chemistry & Engineering, 2024 | 3 | 2024 |