Journal Publications
- [21]Modulated Band Structure in 2D/2D ZnIn2S4/B-C3N4 S-Scheme Heterojunction for Photocatalytic Hydrogen Evolution.Diam. Relat. Mater., 140, Part A, 110456, 2023.
- [22]Tuning Charge Transfer Between Size-Controlled Pt Cluster and N Vacancy Engineered Ultrathin g-C3N4 for Efficient Photocatalytic Hydrogen Evolution.Ceram. Int., 49 (22), Part B, 36857-36865, 2023.
- [23]La1.33-xNa3xTi2O6/Na3La2(BO3)3 Heterostructure Transformed from La2Ti2O7 Plates for Enhanced Photocatalytic H2 Evolution.Mol. Catal., 549, 113544, 2023.
- [24]Reaction Behavior of Kaolinite in Sulfur-Bearing Sodium Aluminate Solution under the Simulated Bayer Process.Processes, 11 (9), 2630, 2023.
- [25]In-Doped Sn3O4 Flower-Like Nanosheets for Efficient Visible-Light Photocatalytic Hydrogen Production.Mol. Catal., 547, 113309, 2023.
- [26]Mannitol Assisted Fe-O Clusters@ZIF-L for Cr (VI) Photocatalytic Reduction under Neutral Conditions Inspired by Fe-Based MOFs Photocatalysts.Sep. Purif. Technol., 320, 124174, 2023.
- [27]Microbial Synthesis of N, P Co-Doped Carbon Supported PtCu Catalysts for Oxygen Reduction Reaction.J. Energy Chem., 84, 486-495, 2023.
- [28]Nitrogen-Doped Carbon Coated Ni3Mo3N Porous Microrods as Efficient Electrocatalyst for Hydrogen Evolution Reaction.Diam. Relat. Mater., 136, 109974, 2023.
- [29]Unraveling the Impact of Iron Incorporation Toward Efficient Oxygen Evolution Reaction of Nickel Tungstate.J. Electroanal. Chem., 940, 117454, 2023.
- [30]Highly Stable PtCu3Auy Nanowires-Nanoparticles Composite as Efficient Electrocatalysts Towards Oxygen Reduction Reaction.J. Power Sources, 567, 232924, 2023.
- [31]Construction of CsPbBr3-CdS Solid Solution for Visible Light Photocatalytic CO2 Reduction.J. Mater. Sci-Mater. El., 34 (5), 447, 2023.
- [32]Anchoring TiO2@ CsPbBr3 on g-C3N4 Nanosheet for Enhanced Photocatalytic Degradation Activity of Tetracycline Hydrochloride.Diam. Relat. Mater., 133, 109727, 2023.
- [33]Sulfur Vacancy and p-n Junction Synergistically Boosting Interfacial Charge Transfer and Separation in ZnIn2S4/NiWO4 Heterostructure for Enhanced Photocatalytic Hydrogen Evolution.J. Colloid. Inter. Sci., 634, 817-826, 2023.
- [34]Facile Synthesis of PtMn@Pt Core-Shell Nanowires for Oxygen Reduction Reaction.Facile Synthesis of PtMn@Pt Core-Shell Nanowires for Oxygen Reduction Reaction, J. Phys. Chem. Solids, 173, 111136, 2023.
- [35]Multiple Chemical Valences Induced Interface Regulation in Perovskite Nickelate/Graphite Carbon Nitride for Boosting Photocatalytic Hydrogen Evolution.J. Colloid. Inter. Sci., 631, 102-111, 2023.
- [36]Ultrafast interfacial charge evolution of the Type-II cadmium Sulfide/Molybdenum disulfide heterostructure for photocatalytic hydrogen production.J. Colloid. Inter. Sci., 619, 246-256, 2022.
- [37]Ru-optimized geometric sites of cations in CoFe/CoFe2O4 electrocatalysts with graphitic carbon shells for boosting water oxidation.New J. Chem., 46 (4), 1912-1920, 2022.
- [38]Boosting hydrogen and oxygen evolution of porous CoP nanosheet arrays through electronic modulating with oxygen-anion-incorporation.J. Colloid. Inter. Sci., 622, 239-249, 2022
- [39]Borate narrowed band gap of nickel-iron layer double hydroxide to mediate rapid reconstruction kinetics for water oxidation.Appl. Catal. B. Environ., 317, 121713, 2022.
- [40]Highly Clean and Efficient Iron Phosphates Modified by Ru Nanocrystals for Water Oxidation.Dalton T., 51 (17), 6778-6786, 2022.
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Jun Pan
 Email:5bfd4ef65257a89ded30aa9b657fd91cface845c926227476bdb44d063180712941767cc5ae731887e3df19f918c279334b9d88abfb62f48e3f4965ab17f5addfb7386bfc1c91ebced8f06163fe6d8002564f7cdbf1490071a23d8928e67645ec07439bfb9f0ef250af395ca3fc0c4711a86b5a65e59e7674f5be203befc1f16 Fax:ade192c932b30dfa2e5c5cf7d57b192b5f46373eb352aff36317ccbca6deacff9ac0f8dd540142aec93f56893b70e266d5cf1f241256ab20d4a57bf8d4186b8ffdd680222bae776ef2adc06eb58fbccf2fddb1cc67d5a457e35f2c47b8f46c39543c964470e2e1bc801338d742612f180779ac3129a2f665e473f33e1c0fb5c1
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MOBILE Version
