| 1 | An electrochemical energy converter integrating multiple energy conversion and transport modes | Energy conversion and management 2025 (中科院1区、JCR1区) | 卓越期刊 | 通讯 |
| 2 | Negative carbon emission power generator: A combination of high temperature proton exchange membrane fuel cell and absorption carbon capture system | Journal of cleaner production 2025 (中科院1区、JCR1区) | 卓越期刊 | 通讯 |
| 3 | New insights into energy conversion mechanism, optimal absorbent selection criteria, and operation strategies of absorption carbon capture systems | Energy 2024 (中科院1区、JCR1区) | 卓越期刊 | 1 |
| 4 | A novel electrochemical system with adiabatic pre-charging and pre-discharging processes for efficient refrigeration | Energy conversion and management 2023 (中科院1区、JCR1区) | 卓越期刊 | 通讯 |
| 5 | Optimal analyses and performance bounds of the low-dissipation three-terminal heat transformer: The roles of the parameter constraints and optimization criteria | Energy 2023 (中科院1区、JCR1区) | 卓越期刊 | 通讯 |
| 6 | Low-dissipation model of three-terminal refrigerator: performance bounds and comparative analyses | Journal of Physics A 2022 | SCI期刊 | 通讯 |
| 7 | Comparative Assessment of Various Low-Dissipation Combined Models for Three-Terminal Heat Pump Systems | Entropy 2021 | SCI期刊 | 通讯 |
| 8 | The equivalent low-dissipation combined cycle system and optimal analyses of a class of thermally driven heat pumps | Energy conversion and management 2020 (中科院1区、JCR1区) | 卓越期刊 | 1 |
| 9 | Energetic Self-Optimization Induced by Stability in Low-Dissipation Heat Engines | Physical Review Letters 2020 | 顶级期刊 | 2 |
| 10 | Continuous power output criteria and optimum operation strategies of an upgraded thermally regenerative electrochemical cycles system | Energy conversion and management 2019 (中科院1区、JCR1区) | 卓越期刊 | 1 |
| 11 | Thermally driven refrigerators: Equivalent low-dissipation three-heat-source model and comparison with experimental and simulated results | Energy conversion and management 2019 (中科院1区、JCR1区) | 卓越期刊 | 1 |
| 12 | Performance characteristics and parametric optimizations of a weak dissipative pumped thermal electricity storage system | Energy conversion and management 2018 (中科院1区、JCR1区) | 卓越期刊 | 1 |
| 13 | Performance evaluation and parametric choice criteria of a Brayton pumped thermal electricity storage system | Energy 2016 (中科院1区、JCR1区) | 卓越期刊 | 1 |
| 14 | Performance optimization and comparison of pumped thermal and pumped cryogenic electricity storage systems | Energy 2016 (中科院1区、JCR1区) | 卓越期刊 | 1 |
| 15 | Comment on “thermodynamic efficiency of pumped heat | Physical Review Letters 2016 | 顶级期刊 | 2 |
| 16 | Universal efficiency bounds of weak-dissipative thermodynamic cycles at the maximum power output | Physical Review E 2013 | 卓越期刊 | 1 |
| 17 | Efficiencies of two-level weak dissipation quantum Carnot engines at the maximum power output | JAP,2013 | SCI | 1 |
| 18 | General performance characteristics and parametric optimum bounds of irreversible chemical engines. | JAP,2012 | SCI | 1 |
| 19 | The performance analysis of a micro-/nanoscaled quantum heat engine | 2012,PHYSICA A | SCI | 1 |
| 20 | The performance evaluation of a micro/nano-scaled cooler working with an ideal Bose gas. | Phys. Lett. A,2012 | SCI | 1 |