| 1 | Semiconductor Electrochemistry for Clean Energy Conversion and Storage | Electrochemical Energy Reviews | 2021 | 136 |
| 2 | Promoted electrocatalytic activity and ionic transport simultaneously in dual functional Ba0.5Sr0.5Fe0.8Sb0.2O3-δ-Sm0.2Ce0.8O2-δ heterostructure | Applied Catalysis B: Environmental | 2021 | 118 |
| 3 | A comprehensive review on durability improvement of solid oxide fuel cells for commercial stationary power generation systems | Applied Energy | 2023 | 106 |
| 4 | Recent advance in physical description and material development for single component SOFC: A mini-review | Chemical Engineering Journal | 2022 | 103 |
| 5 | Wormlike Perovskite Oxide Coupled with Phase‐Change Material for All‐Weather Solar Evaporation and Thermal Storage Applications | Advanced Energy and Sustainability Research | 2023 | 79 |
| 6 | Junction and energy band on novel semiconductor-based fuel cells | IScience | 2021 | 66 |
| 7 | Design principle and assessing the correlations in Sb-doped Ba0.5Sr0.5FeO3–δ perovskite oxide for enhanced oxygen reduction catalytic performance | Journal of Catalysis | 2021 | 63 |
| 8 | Novel Perovskite Semiconductor Based on Co/Fe-Codoped LBZY (La0.5Ba0.5 Co0.2Fe0.2Zr0.3Y0.3O3−δ) as an Electrolyte in Ceramic Fuel Cells | ACS Applied Energy Materials | 2021 | 51 |
| 9 | Semiconductor Nb-Doped SrTiO3−δ Perovskite Electrolyte for a Ceramic Fuel Cell | ACS Applied Energy Materials | 2021 | 51 |
| 10 | Cubic silicon carbide/zinc oxide heterostructure fuel cells | Applied Physics Letters | 2020 | 48 |
| 11 | High-performing and stable non-doped ceria electrolyte with amorphous carbonate coating layer for low-temperature solid oxide fuel cells | Electrochimica Acta | 2021 | 46 |
| 12 | Tailoring triple charge conduction in BaCo0.2Fe0.1Ce0.2Tm0.1Zr0.3Y0.1O3−δ semiconductor electrolyte for boosting solid oxide fuel cell performance | Renewable Energy | 2021 | 45 |
| 13 | Demonstrating the potential of iron-doped strontium titanate electrolyte with high-performance for low temperature ceramic fuel cells | Renewable Energy | 2022 | 45 |
| 14 | Semiconductor-membrane fuel cell (SMFC) for renewable energy technology | Renewable and Sustainable Energy Reviews | 2023 | 43 |
| 15 | Synergistic Proton and Oxygen Ion Transport in Fluorite Oxide-Ion Conductor | Energy Material Advances | 2024 | 41 |
| 16 | Interface engineering of bi-layer semiconductor SrCoSnO3-δ-CeO2-δ heterojunction electrolyte for boosting the electrochemical performance of low-temperature ceramic fuel cell | International Journal of Hydrogen Energy | 2021 | 39 |
| 17 | Perovskite Al-SrTiO3 semiconductor electrolyte with superionic conduction in ceramic fuel cells | Sustainable Energy and Fuels | 2022 | 39 |
| 18 | Designing Gadolinium-doped ceria electrolyte for low temperature electrochemical energy conversion | International Journal of Hydrogen Energy | 2023 | 38 |
| 19 | Fast ionic conduction and rectification effect of NaCo0.5Fe0.5O2-CeO2 nanoscale heterostructure for LT-SOFC electrolyte application | Journal of Alloys and Compounds | 2022 | 34 |
| 20 | PN Heterostructure Interface-Facilitated Proton Conduction in 3C-SiC/Na0.6CoO2 Electrolyte for Fuel Cell Application | ACS Applied Energy Materials | 2021 | 28 |
| 21 | Novel LaFe2O4 spinel structure with a large oxygen reduction response towards protonic ceramic fuel cell cathode | Journal of Rare Earths | 2023 | 28 |
| 22 | Large Thermal Conductivity Switching in Ferroelectrics by Electric Field-Triggered Crystal Symmetry Engineering | ACS Applied Materials & Interfaces | 2022 | 28 |
| 23 | Accelerated Proton Transport Based on a p-i-n Heterostructure Membrane for Low-Temperature Solid Oxide Fuel Cells | ACS Applied Energy Materials | 2021 | 27 |
| 24 | Tunning tin-based perovskite as an electrolyte for semiconductor protonic fuel cells | International Journal of Hydrogen Energy | 2022 | 27 |
| 25 | NCNT grafted perovskite oxide as an active bifunctional electrocatalyst for rechargeable zinc-air battery | Materials Today Nano | 2023 | 26 |
| 26 | Designing p-n heterostructure of LSCF-CeO2 material for ionic transportation as an electrolyte for semiconductor ion membrane fuel cell | International Journal of Hydrogen Energy | 2024 | 26 |
| 27 | Insight of proton transport phenomena in semiconductor ionic materials | Journal of Power Sources | 2024 | 25 |
| 28 | Enabling high ionic conductivity in semiconductor electrolyte membrane by surface engineering and band alignment for LT-CFCs | Journal of Membrane Science | 2023 | 24 |
| 29 | Toward next-generation fuel cell materials | IScience | 2023 | 23 |
| 30 | Hierarchical Ti3C2/BiVO4 microcapsules for enhanced solar-driven water evaporation and photocatalytic H2 evolution | Journal of Colloid and Interface Science | 2024 | 23 |
| 31 | In situ polymerized Fe2O3@PPy/chitosan hydrogels as a hydratable skeleton for solar‐driven evaporation | Journal of the American Ceramic Society | 2022 | 22 |
| 32 | Biomass-Printed Hybrid Solar Evaporator Derived from Bio-polluted Invasive Species, a Potential Step toward Carbon Neutrality | ACS Applied Materials & Interfaces | 2023 | 22 |
| 33 | Advanced LT-SOFC Based on Reconstruction of the Energy Band Structure of the LiNi0.8Co0.15Al0.05O2–Sm0.2Ce0.8O2-δ Heterostructure for Fast Ionic Transport | ACS Applied Energy Materials | 2021 | 21 |
| 34 | Semiconductor ionic Cu doped CeO2 membrane fuel cells | Ceramics International | 2024 | 21 |
| 35 | Unraveling the synergistic effect on ionic transport of ceria via the surface engineering for low-temperature ceramic fuel cells | Applied Physics Letters | 2023 | 20 |
| 36 | Surface and interfacial conduction using gadolinium-doped ceria electrolyte for advanced low temperature 400–500 °C fuel cell | Electrochimica Acta | 2023 | 19 |
| 37 | Phonon entropy engineering for caloric cooling | Applied Physics Reviews | 2023 | 18 |
| 38 | Exceptionally high proton conductivity in Eu2O3 by proton-coupled electron transfer mechanism | IScience | 2024 | 18 |
| 39 | Doped ceria electrolyte rich in oxygen vacancies for boosting the fuel cell performance of LT-CFCs | International Journal of Hydrogen Energy | 2023 | 17 |
| 40 | High entropy oxide coated BaTiO3 enabling high ionic transport | Journal of Alloys and Compounds | 2024 | 17 |
| 41 | Space Charge Polarization Effect in Surface-Coated BaTiO3 Electrolyte for Low-Temperature Ceramic Fuel Cell | ACS Applied Energy Materials | 2024 | 17 |
| 42 | Semiconductor Heterostructure (SrFe0.3TiO3-ZnO) Electrolyte with High Proton Conductivity for Low-Temperature Ceramic Electrochemical Cells | ACS Applied Materials & Interfaces | 2024 | 17 |
| 43 | An innovative perovskite oxide enabling improved efficiency for low-temperature ceramic electrochemical cells | Fuel | 2024 | 16 |
| 44 | Surface engineered homo-structure enabling the fast ionic conduction for ceramic fuel cells | Journal of Alloys and Compounds | 2023 | 15 |
| 45 | Excellent oxygen reduction electrocatalytic activity of nanostructured CaFe2O4 particles embedded microporous Ni-Foam | International Journal of Hydrogen Energy | 2022 | 14 |
| 46 | A-site deficient semiconductor electrolyte Sr1−xCoxFeO3−δ for low-temperature (450–550 °C) solid oxide fuel cells | RSC Advances | 2022 | 13 |
| 47 | Improved self-consistency and oxygen reduction activity of CaFe2O4 for protonic ceramic fuel cell by porous NiO-foam support | Renewable Energy | 2022 | 13 |
| 48 | Ba0.5Sr0.5Fe0.8Sb0.2O3-δ- Sm0.2Ce0.8O2-δ bulk heterostructure composite: A cobalt free Oxygen Reduction Electrocatalyst for low-temperature SOFCs | International Journal of Hydrogen Energy | 2022 | 13 |
| 49 | Experiencing heightened oxygen reduction response in CaFe2O4-WO3 heterostructure for ceramic fuel cells | Fuel | 2024 | 13 |
| 50 | Interfacial active-sites p-n heterojunction SFT-WO3 for enhanced fuel cell performance at 400–500 °C | Materials Today Sustainability | 2022 | 12 |
