代表性论文:(*代表通讯作者)
缺陷储能(二次电池):
1. Koketsu T., Ma J.*, Morgan B. J., Body M., Legein C., Dachraoui W., Giannini M., Demortiere A., Salanne M., Dardoize F., Groult H., Borkiewicz O. J., Chapman K. W., Strasser P.*, Dambournet D.*, Reversible magnesium and aluminium ions insertion in cation-deficient anatase TiO2, Nature Mater., 2017, 16, 1142-1148. (ESI Highly Cited Paper)
2. Ma J.*, Reeves K., Porras-Gutierrez A. G., Body M., Legein C., Kakinuma K., Borkiewicz O. J., Chapman K. W., Groult H., Salanne M., Dambournet D.*, Layered Lepidocrocite Type Structure Isolated by Revisiting the Sol-Gel Chemistry of Anatase TiO2: A New Anode Material for Batteries, Chem. Mater., 2017, 29, 8313-8324.
3. Ma J.*, Li W., Morgan B. J., Światowska J., Baddour-Hadjean R., Body M., Legein C., Borkiewicz O. J., Leclerc S., Groult H., Lantelme F., Laberty-Robert C., Dambournet D.*, Lithium Intercalation in Anatase Titanium Vacancies and the Role of Local Anionic Environment, Chem. Mater., 2018, 30, 3078–3089.
4. Hadouchi M., Yaqoob N., Kaghazchi P., Tang M., Liu J., Sang P., Fu Y., Huang Y.*, Ma J.*, Fast sodium intercalation in Na3.41£0.59FeV(PO4)3: A novel sodium-deficient NASICON cathode for sodium-ion batteries, Energy Storage Mater., 2021, 35, 192–202.
5. Hou J., Hadouchi M.*, Sui L., Liu J., Tang M., Kan W. H., Avdeev M., Zhong G., Liao Y.-K., Lai Y.-H., Chu Y.-H., Lin H.-J., Chen C.-T., Hu Z., Huang Y.*, Ma J.*, Unlocking fast and reversible sodium intercalation in NASICON Na4MnV(PO4)3 by fluorine substitution, Energy Storage Mater., 2021, 42, 307–316.
缺陷和界面调控(氧电极催化剂):
1. Zhu Y., Wang J., Koketsu T., Kroschel M., Chen J.-M., Hsu S.-Y., Henkelman G., Hu Z.*, Strasser P.*, Ma J.*, Iridium single atoms incorporated in Co3O4 efficiently catalyze the oxygen evolution in acidic conditions, Nature Commun., 2022, 13, 7754.
2. Zhong X., Oubla M., Wang X., Huang Y.Y., Zeng H., Wang S., Liu K., Zhou J., He L., Zhong H., Alonso-Vante N., Wang C.-W., Wu W.-B., Lin H.-J., Chen C.-T., Hu Z.*, Huang Y.*, Ma J.*, Boosting oxygen reduction activity and enhancing stability through structural transformation of layered lithium manganese oxide, Nature Commun., 2021, 12, 3136.
3. Zeng H., Oubla M., Zhong X., Alonso-Vante N., Du F., Xie Y.*, Huang Y., Ma J.*, Rational defect and anion chemistries in Co3O4 for enhanced oxygen evolution reaction, Appl. Catal. B, 2021, 281, 119535. (ESI Highly Cited Paper)
4. Ma J., Habrioux A., Luo Y., Ramos-Sanchez G., Calvillo L., Granozzi G., Balbuena P. B., Alonso-Vante N.*, Electronic Interaction between Platinum Nanoparticles and Nitrogen-doped Reduced Graphene Oxide: Effect on the Oxygen Reduction Reaction, J. Mater. Chem. A, 2015, 3, 11891-11904.
5. Ma J., Habrioux A., Miyao T., Kakinuma K., Inukai J.*, Watanabe M., Alonso-Vante N.*, Correlation between surface chemical composition with catalytic activity and selectivity of organic-solvent synthesized Pt-Ti nanoparticles, J. Mater. Chem. A, 2013, 1, 8798-8804.
代表性英文专著:
1. Koketsu T., Strasser P., Huang Y., Ma J., “Challenge in metal-air batteries: From the design to the performance of metal oxide-based electrocatalysts” in Metal Oxide-Based Nanostructured Electrocatalysts for Fuel Cells, Electrolyzers, and Metal-Air Batteries, Napporn T., and Holade Y., eds. (Elsevier, 2021), Chapter 8, 187-212.
2. Ma J., Li W., Dambournet D., “Solution-based Synthesis of nano-sized TiO2 anatase in fluorinating media” in Modern Synthesis Processes and Reactivity of Fluorinated Compounds: Progress in Fluorine Science, Groult H., Leroux F., and Tressaud A., eds. (Elsevier, 2017), Chapter 22, 651-669.
代表性国际专利:
1. Ma J., Pesty A. G., Dambournet D., Titanium oxyhydroxide compound and method for producing same, and electrode and catalyst comprising same; International Patent Pub. No.: WO2017125680 (Int. Pub. Date: 27.07.2017). Also, published as FR3047001 (France).
2. Alonso-Vante N., Ma J., Gago A. S., Process for preparing nanoparticles of a catalyst for cathodic reduction of dioxygen in the presence of methanol; International Patent Pub. No.: WO2013190060 (Int. Pub. Date: 27.12.2013). Also, published as FR2992234 (France), JP2015526843 (Japan), US2015340708 (USA).
作者: striving 时间: 2023-3-2 08:45
12月14日,《自然·通讯》(Nature Communications)在线发表了同济大学材料科学与工程学院马吉伟教授团队及其合作者的研究论文“Iridium single atoms incorporated in Co3O4 efficiently catalyze the oxygen evolution in acidic conditions”。该研究通过一种简单的机械力化学法成功得到了Ir单原子掺杂的尖晶石Co3O4纳米材料,其中Ir的原子比约为1.05%。该催化剂在酸性介质中展现出优越于商业IrO2的氧析出活性以及稳定性。该论文采用了先进的原位同步辐射技术实时监测了催化剂中各元素在反应过程中电子结构的变化,并结合理论计算揭示了该催化剂的高催化活性机理。此外,该催化剂的合成可以进一步实现克级规模的批量化生产,揭示了其在实际电解水设备中应用的潜力。
作者: qiuyuye 时间: 2024-3-11 09:09
2月16日,《自然·通讯》(Nature Communications)在线发表了同济大学材料科学与工程学院马吉伟教授团队及其合作者的研究论文 “Facilitating alkaline hydrogen evolution reaction on the hetero-interfaced Ru/RuO2 through Pt single atoms doping”。该研究通过设计在具有异质界面的Ru/RuO2复合结构中掺杂Pt单原子,制备了高效的碱性电解水制氢催化剂。该催化剂在1 M KOH中展现出优越于商业Pt/C和Ru/C的氢气析出活性以及稳定性。此外,该论文采用了先进的原位同步辐射以及原位拉曼表征技术揭示了催化剂的反应机理,并结合理论计算进行了验证。随后,该研究进一步将该催化剂应用于大电流的碱性水电解池中,相比于商业Pt/C展现出显著提升的性能以及经济效益,证明其可应用于实际工业制氢的潜力。