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2023

 

  1. Zhuwei Yang, Xiang Gong, Linsen Li, Zhao Jiang*, Riguang Zhang, Tao Fang. Strengthening the metal-support interaction over Pt/SiO2-TiO(OH)2 by defect engineering for efficient dehydrogenation of dodecahydro-N-ethylcarbazole. Fuel, 2023, 334,126733. IF=7.4.
  2. Na Ye, Pengcheng Zhao,Xiaoying Qi, Riguang Zhang, Binhang Yan, Wenchao Sheng, Zhao Jiang*, Tao Fang. Probing the activity origin of the enhanced methanol electrooxidation on Ni-induced PdNix(OH)y-TaN/C catalyst with nitrogen vacancies. Applied Catalysis B: Environmental. 2023, 322, 122142.  IF=24.319.
  3. Zhuwei Yang, Linsen Li, Xiaoming Liu, Xiao Yang, Hui Xiong, Riguang Zhang*, Zhao Jiang*, Tao Fang. Efficient deposition of Pt nanoparticles on TiO2 nanosheets by regulating the defect concentration: Strengthening MSI for enhancing dehydrogenation of dodecahydro-N-ethylcarbazole. Chemical Engineering Journal. 2023, 474, 165896. IF=15.1.
  4. Na Ye, Wenchao Sheng, Riguang Zhang, Binhang Yan, Zhao Jiang*, Tao Fang. Interfacial Electron Engineering of PdSn-NbN/C for Highly Efficient Cleavage of the C-C Bonds in Alkaline Ethanol Electrooxidation. Small. 2023, 2304990. IF=13.3.
  5. Xiang Gong, Linsen Li, Shi, Renyi, Riguang Zhang, Zhao Jiang*, Tao Fang. Novel Liquid Organic Hydrogen Carriers with High Hydrogen Performance: NPhCZ/18H-NPhCZ. ACS Sustainable Chemistry & Engineering. 2023, 11, 3085-3092. IF=8.4.
  6. Xiaoying Qi, Na Ye, Zhao Jiang*, Riguang Zhang, Tao Fang. Boosting the activity and CO tolerance for methanol oxidation reaction in alkaline media by constructing the Pt-TMNs electrocatalysts. Fuel. 2023, 350, 128773. IF=7.4.
  7. Yanxin Bai, Na Ye; Zhao Jiang*; Riguang Zhang; Tao Fang. Enhancing the activity and stability by coupling Ni-M bimetals and TaN for methanol oxidation reaction in alkaline media. Fuel. 2023, 341, 127758. IF=7.4.
  8. Linsen Li, Xiang Gong, Zhuwei Yang, Riguang Zhang, Zhao Jiang*, Tao Fang.Boosting the dehydrogenation efficiency of dodecahydro-N-ethylcarbazole by assembling Pt nanoparticles on the single-layer Ti3C2Tx MXene. International Journal of Hydrogen Energy. 2023, 48,(51)19633-19645. IF=7.2.
  9. Yanxin Bai, Hui Xiong, Zhao Jiang*; Riguang Zhang; Tao Fang. Tuning the electronic structures of TMNs-modified Ni-based catalysts to enhance the performance for MOR in alkaline media. ChemCatChem, 2023, e202300300. https://doi.org/10.1002/cctc.202300300. IF=4.5.
  10.  Xinyi Hu, Riguang Zhang*, Zhao Jiang*. Depositing the PtNi nanoparticles on Niobium Oxide to Enhance the Activity and CO-tolerance for Alkaline Methanol Electrooxidation. Chinese Journal of Structural Chemistry, 2023, https://doi.org/10.1016/j.cjsc.2023.100157. IF=2.2.

 

2022

1. Yanxin BaiXiang GongNa YeXiaoying QiZhao Jiang*, Tao Fang. Design the PdCu/Ni2P electrocatalyst with high efficiency for ethanol oxidation reaction in alkaline media. International Journal of Hydrogen Energy, 2022, 47,3,1543-1555. IF=7.139.

2. Na Ye, Pengcheng Zhao,Xiaoying Qi; Wenchao Sheng; Zhao Jiang*;Tao Fang; Understanding the high performance of PdSn-TaN(tantalum nitride)/C electrocatalysts for methanol oxidation reaction: coupling the nitrides and oxophilic elements. Journal of Materials Chemistry A. 2022,10, 266-287. IF=14.511.

3. Na Ye, Pengcheng Zhao,Xiaoying Qi, Wenchao Sheng, Zhao Jiang*, Tao Fang; Ethanol electro-oxidation on the PdSn-TaN/C catalyst in alkaline media: making TaN capable of splitting C-C bond. Applied Catalysis B: Environmental. 2022, 314, 121473.  IF=24.319.

4. Xiaoying Qi, Xiang Gong, Na Ye, Zhao Jiang*, Tao Fang. Improving the activity and CO tolerance by the nitrides-modified Pd/C electrocatalysts for methanol and formic acid oxidation reactions. International Journal of Hydrogen Energy, 2022,47, 27527-27540. IF=7.139.

5. 龚翔, 李林森, 姜召PdCo/SiO2双金属催化剂用于杂环储氢载体的高效脱氢。化工学报。2022, 73 (10): 4448-4460.

6. Dan Li, Jiahui Cheng,Zhao Jiang, Yang Guo*. Ammonia synthesis by enhanced photocatalysis of N2 over oxygen-sulfur co-doped semi-crystalline g-C3N4. Journal of Materials Science. 2023, accepted.

7. Denghao Ouyang, Daihong Gao, Jinpeng Hong, Zhao Jiang, Xuebing Zhao*. Promoting and controlling electron transfer of furfural oxidation efficiently harvest electricity, furoic acid, hydrogen gas and hydrogen peroxide. Journal of Energy Chemistry. 2022. Online.

8. Qiangqinang Xue, Zhengwen Li, Huilin Yi, Zhao Jiang, Binhang Yan*, Yujun Wang*, Guangsheng Luo. Controlling sintering and carbon deposition with post-coated MgO confined group VIII metal-based catalysts towards durable high-temperature steam reforming. Applied Catalysis B: Environmental. 2022, 318, 121874.

 

 

2021

1. Zhao Jiang*, Xiang Gong, Shuyi Guo, Yanxin Bai, Tao Fang*. Engineering PdCu and PdNi bimetallic catalysts with adjustable alloying degree for the dehydrogenation reaction of dodecahydro-N-ethylcarbazole. International Journal of Hydrogen Energy. 2021,462),2376-2389

2. Na Ye, Yanxin Bai, Zhao Jiang*, Tao Fang. Design PdCu/TaN-C electrocatalyst with core-shell structure having high efficiency for methanol and formic acid oxidation reactions. Electrochimica Acta, 2021,383, 138365.

3. Xiang GongShuyi GuoZhao Jiang*Bolun YangTao Fang. Tuning the alloy degree for Pd-M/Al2O3 (M=Co/ Ni /Cu) bimetallic catalysts to enhance the activity and selectivity of dodecahydro-N-ethylcarbazole dehydrogenation. International Journal of Hydrogen Energy. 2021,4668),33835-33848.

4. Na Ye, Zhao Jiang*, Tao Fang. Probing the enhanced methanol electrooxidation mechanism by promoted CO tolerance on the Pd catalyst modified with TaN: A combined experimental and theoretical study. International Journal of Hydrogen Energy. 2021, 4675),37321-37332.

 

2020

1. Yixuan Jiang, Yaguang Zhu, Dechun Zhou, Zhao Jiang*, Nan Si, Dario Stacchiola*, Tianchao Niu*. Reversible oxidation and reduction of gold-supported iron oxide islands at room temperature. The Journal of Chemical Physics. 2020, 152(7):074710.

2. Zhao Jiang*, Na Ye, Tao Fang. Theoretical investigation on the effect of doped Pd on the Cu(111) surface for formic acid oxidation: competing formation of CO2 and CO. Chemical Physics Letter. Chemical Physics Letters, 2020, 751:137509.

3. Na Ye, Zhao Jiang*, Tao Fang. Assembling the PdCu/rGO catalysts for methanol oxidation reaction in alkaline media by tuning the electronic structure[J]. Electrochimica Acta, 2020, 352:136473.

4. Na Ye, Yanxin Bai, Zhao Jiang*, Tao Fang*. Component-dependent activity of bimetallic PdCu and PdNi electrocatalysts for methanol oxidation reaction in alkaline media. International Journal of Hydrogen Energy. 2020, 45, 56, 32022-32038.

5. Xiang Gong, Zhao Jiang*, Tao Fang*. Enhancing selectivity and reducing cost for dehydrogenation of dodecahydro-N-ethylcarbazole by supporting Platinum on titanium dioxide. International Journal of Hydrogen Energy. 2020, 45, 6838-6847.

 

2019

1. Zhao Jiang*, Zhiqiang Wu, Tao Fang, Chunhai Yi*. Enhancement C-H bond activation of methane via doping Pd, Pt, Rh and Ni on Cu(111) surface: a DFT study. Chemical Physics Letter. 2019, 715, 323-329.

2. Zhao Jiang*, Xiang Gong, Bin Wang, Zhiqiang Wu, Tao Fang. A experimental study on the dehydrogenation performance of dodecahydro-N-ethylcarbazole on M/TiO2 catalysts. International Journal of Hydrogen Energy. 2019, 44(5)2951-2959.

3. Bin Wang, Tie-yan Chang, Xiang Gong, Zhao Jiang*, Sen Yang, Yu-sheng Chen, Tao Fang*. One-pot synthesis of Au/Pd core-shell nanoparticles supported on reduced graphene oxide with enhanced dehydrogenation performance for dodecahydro-Nethylcarbazole. ACS Sustainable Chemistry & Engineering, 2019, 7 (1): 1760–1768.

4. Zhao Jiang*, Tao Fang*. Probing the effect of Pd coverage towards NH3 decomposition on Cu(100) surface. Chemical Physics Letter. 2019, 729, 30-36.

5. Zhao Jiang*, Shuyi Guo, Tao Fang. Enhancing the catalytic activity and selectivity of PdAu/SiO2 bimetallic catalysts for dodecahydro-N-ethylcarbazole dehydrogenation by controlling the particle size and dispersion. ACS Applied Energy Materials. 2019. DOI: 10.1021/acsaem.9b01202.

6. Bin Wang, Tie-yan Chang, Zhao Jiang*, Jinjia Wei, Tao Fang*. Component controlled synthesis of bimetallic PdCu nanoparticles supported on reduced graphene oxide for dehydrogenation of dodecahydro-N-ethylcarbazole. Applied Catalysis B: Environmental. 2019, 251, 261-272.

 

2018

 

1) Bin Wang , Tieyan Chang , Zhao Jiang*, Jinjia Wei , Yonghai Zhang , Sen Yang, Tao Fang*. Catalytic dehydrogenation study of dodecahydro-N-ethylcarbazole by noble metal supported on reduced graphene oxide. International Journal of Hydrogen Energy. 2018, 43: 7317-7325.

2) Tianchao Niu, Zhao Jiang(共一), Yaguang Zhu, Guangwen Zhou, Matthijs A. van Spronsen, Samuel A. Tenney, J. Anibal Boscoboinik, Dario Stacchiola. Oxygen-Promoted Methane Activation on Copper. Journal of Physical Chemistry B, 2018, 122 (2), 855-863.

3. Likai Zhang, Wei Wu, Zhao Jiang*, Tao Fang*. A review on liquid-phase heterogeneous dehydrogenation of formic acid: recent advances and perspectives. Chemical Papers. 2018, 72(9) 2121-2135.

4. Zhao Jiang, Qian Zhang, Zhixiu Liang, Jingguang G Chen. Pt-modified TaC as an Efficient Electrocatalyst for Ethanol Oxidation in Acid and Alkaline Electrolytes. Applied Catalysis B: Environmental. 2018, 234, 329-336.

5. Wesley W LucZhao JiangJingguang G Chen, and Feng Jiao. Role of Surface Oxophilicity in Copper-catalyzed Water Dissociation.ACS Catal. 2018, 8, 10, 9328-9333.

6. Siyu YaoBinhang YanZhao JiangZongyuan LiuQiyuan WuJi Hoon Lee, and Jingguang G. Chen. Combining CO2 Reduction with Ethane Oxidative Dehydrogenation by Oxygen-Modification of Molybdenum Carbide. ACS Catalysis, 2018, 8 (6), 5374-5381.

7. Qinli Liu, Maojian Wang, Zhao Jiang, Guidong Yang, Jinjia Wei,Tao Fang*, Bottlenecks identification and intensification for transesterification of surplus glycerol and triacylglycerols: Thermodynamics, mechanism and kinetics analysis, Chemical Engineering Journal, 2018, 349:192-203.(WOS:000437090400020)

8. Lingna Liu, Hedan Yao, Zhao Jiang, Tao Fang*, Theoretical Study of Methanol Synthesis from CO2 Hydrogenation on PdCu3(111) Surface, Applied Surface Science, 2018, 451: 333-345.(WOS:000433200700037)

9. Na Ye, Ting Yan, Zhao Jiang, Wei Wu, Tao Fang*, A review: Conventional and supercritical hydro/solvothermal synthesis of ultrafine particles as cathode in lithium battery, Ceramics International, 2018, 44(5): 4521-4537. (WOS:000425204400001)

9. Qian Zhang, Zachary J. Mellinger, Zhao Jiang, Xi Chen, Bo Wang, Boyuan Tian, Zhixiu Liang, Jingguang G. Chen. Palladium-Modified Tungsten Carbide for Ethanol Electrooxidation: From Surface Science Studies to Electrochemical Evaluation. Journal of The Electrochemical Society, 2018, 165 (15) J3031-J3038.

10. Baohuai Zhao, Binhang Yan, Zhao Jiang, Siyu Yao, Zongyuan Liu, Qiyuan Wu, Rui Ran, Sanjaya D. Senanayake, Duan Weng, Jingguang G. Chen. High selectivity of CO2 hydrogenation to CO by controlling the valence state of nickel using perovskite. Chem. Commun., 2018, 54, 7354-7357.

 

2015-2017

1. Zhao Jiang, Bin Wang, Tao Fang. A theoretical study on the complete dehydrogenation of methanol on Pd (100) surface. Applied Surface Science, 2016, 364, 613-619.

2. Zhao Jiang, Tao Fang. Dissociation mechanism of H2O on clean and oxygen-covered Cu (111) surfaces: a theoretical study. Vacuum. 2016, 128: 252-258.

3. Zhao Jiang, Pei Qin, Tao Fang. Theoretical study of NH3 decomposition on Pd-Cu (111) and Cu-Pd (111) surfaces: a comparison with clean Pd (111) and Cu (111). Applied Surface Science, 2016, 371: 337-342.

4. Zhao Jiang, Tao Fang. Insight into the promotion effect of pre-covered X (C, N and O) atoms on the dissociation of water on Cu (111) surface: A DFT study. Applied Surface Science, 2016. 376: 219-226.

5.Zhao Jiang, Likai Zhang. DFT study on the dissociation of methanol on Cu (100) surface. the 8th Global Chinese Chemical Engineering Symposium.

6. Zhao Jiang, Tao Fang. DFT Study on the Synergistic Effect of Pd-Cu BiMetal on the Adsorption and Dissociation of H2O. J. Phys. Chem. C, 2016, 120: 25289-25295.

7. Zhao Jiang, Pei Qin, Tao Fang. Decomposition mechanism of formic acid on Cu (111) surface: A theoretical study. Applied Surface Science. 2017, 396, 857-864.

8. Zhao Jiang, Tao Fang. Theoretical investigation on the dehydrogenation mechanism of CH3OH on Cu (100) surface. Journal of Alloys and Compounds. 2017, 698, 617-625.

 

2012-2015

1. Zhao Jiang, Lu Li, Jie Xu, Tao Fang. Density functional periodic study of the dehydrogenation of methane on Pd (1 1 1) surface, Applied Surface Science, 2013, 286: 115-120.

2. Zhao Jiang, Qi Pan, Mengmeng Li, Ting Yan, Tao Fang, Density Functional Theory Study on direct catalytic decomposition of ammonia on Pd (1 1 1) surface, Applied Surface Science, 2014, 292: 494-499.

3. Zhao Jiang, Lu Li, Mengmeng Li, Ruosong Li, Tao Fang, Density Functional Theory study on the adsorption and decomposition of H2O on clean and oxygen-modified Pd (1 0 0) surface, Applied Surface Science, 2014, 301: 468-474.

4. Zhao Jiang, Mengmeng Li, Pei Qin, Tao Fang. Insight into the adsorption and decomposition mechanism of H2S on clean and S-covered Au (1 0 0) surface: A theoretical study, Applied Surface Science, 2014, 311: 40-46.

5. Zhao Jiang, Qi Pan, Jie Xu, Tao Fang*. Current situation and prospect of hydrogen storage technology with new organic liquid. International Journal of Hydrogen Energy, 2014, 39: 17442-17451.

6. Zhao Jiang, Mengmeng Li, Ting Yan, Tao Fang. Decomposition of H2O on clean and oxygen-covered Au (1 0 0) surface: A DFT study. Applied Surface Science, 2014, 315: 16-21.

7. Zhao Jiang, Bin Wang, Tao Fang. Adsorption and dehydrogenation mechanism of methane on clean and oxygen-covered Pd (100) surfaces: A DFT study. Applied Surface Science, 2014, 320: 256-262.

8. Zhao Jiang, Pei Qin, Tao Fang. Investigation on adsorption and decomposition of H2S on Pd (100) surface: A DFT study. Surface Science. 2015, 632, 195-200.

9. Zhao Jiang, Pei Qin, Tao Fang. Mechanism of ammonia decomposition on clean and oxygen-covered Cu (1 1 1) surfaces: A DFT study. Chemical Physics. 2014, 445, 59-67.