Preview | Issue Date | Title | Author(s) |
| 2020 | 2020 roadmap on carbon materials for energy storage and conversion | Wu, M.; Liao, J.; Yu, L.; Lv, R.; Li, P.; Sun, W.; Tan, R.; Duan, X.; Zhang, L.; Li, F.; Kim, J.; Shin, K.H.; Seok Park, H.; Zhang, W.; Guo, Z.; Wang, H.; Tang, Y.; Gorgolis, G.; Galiotis, C.; Ma, J. |
| 2022 | 3D printing interface-modified PDMS/MXene nanocomposites for stretchable conductors | Aakyiir, M.; Tanner, B.; Yap, P.L.; Rastin, H.; Tung, T.T.; Losic, D.; Meng, Q.; Ma, J. |
| 2020 | A new method for preparation of functionalized graphene and its epoxy nanocomposites | Naeem, M.; Kuan, H.C.; Michelmore, A.; Meng, Q.; Qiu, A.; Aakyiir, M.; Losic, D.; Zhu, S.; Ma, J. |
| 2014 | Advancement in liquid exfoliation of graphite through simultaneously oxidizing and ultrasonicating | Shi, G.; Michelmore, A.; Jin, J.; Li, L.; Chen, Y.; Wang, L.; Yu, H.; Wallace, G.; Gambhir, S.; Zhu, S.; Hojati-Talemi, P.; Ma, J. |
| 2018 | Compact, flexible conducting polymer/graphene nanocomposites for supercapacitors of high volumetric energy density | Moussa, M.; El-Kady, M.F.; Abdel-Azeim, S.; Kaner, R.B.; Majewski, P.; Ma, J. |
| 2016 | Compressible, electrically conductive, fibre-like, three-dimensional PEDOT-based composite aerogels towards energy storage applications | Zhao, Z.; Moussa, M.; Shi, G.; Meng, Q.; Wang, R.; Ma, J. |
| 2017 | Development of flexible supercapacitors using an inexpensive graphene/PEDOT/MnO₂ sponge composite | Moussa, M.; Shi, G.; Wu, H.; Zhao, Z.; Voelcker, N.; Losic, D.; Ma, J. |
| 2020 | Electrically and thermally conductive elastomer by using MXene nanosheets with interface modification | Aakyiir, M.; Yu, H.; Araby, S.; Ruoyu, W.; Michelmore, A.; Meng, Q.; Losic, D.; Choudhury, N.R.; Ma, J. |
| 2019 | Free-standing PEDOT/polyaniline conductive polymer hydrogel for flexible solid-state supercapacitors | Yang, Z.; Ma, J.; Bai, B.; Qiu, A.; Losic, D.; Shi, D.; Chen, M. |
| 2018 | Free-standing sulfur-polypyrrole cathode in conjunction with polypyrrole-coated separator for flexible Li-S batteries | Li, F.; Kaiser, M.R.; Ma, J.; Guo, Z.; Liu, H.; Wang, J. |
| 2022 | Graphene-based multifunctional surface and structure gradients engineered by atmospheric plasma | Alosaimi, F.K.; Tung, T.T.; Dao, V.D.; Huyen, N.K.; Nine, M.J.; Hassan, K.; Ma, J.; Losic, D. |
| 2017 | Lengthy one-dimensional magnetite (Fe₃O₄) sub-microfibers with excellent electrochemical performance | Ma, J.; Chang, J.; Ma, H.; Zhang, D.; Ma, Q.; Wang, S. |
| 2019 | Magnetic natural composite Fe₃O₄-chitosan@bentonite for removal of heavy metals from acid mine drainage | Feng, G.; Ma, J.; Zhang, X.; Zhang, Q.; Xiao, Y.; Ma, Q.; Wang, S. |
| 2021 | Maximized crystal water content and charge-shielding effect in layered vanadate render superior aqueous zinc-ion battery | Yu, H.; Aakyiir, M.; Xu, S.; Whittle, J.D.; Losic, D.; Ma, J. |
| 2020 | Multithiol functionalized graphene bio-sponge via photoinitiated thiol-ene click chemistry for efficient heavy metal ions adsorption | Yap, P.L.; Auyoong, Y.L.; Hassan, K.; Farivar, F.; Tran, D.N.H.; Ma, J.; Losic, D. |
| 2016 | Photo-reversible supramolecular hydrogels assembled by α-Cyclodextrin and azobenzene substituted poly(acrylic acid)s: effect of substitution degree, concentration, and tethered chain length | Wang, M.; Zhang, X.; Li, L.; Wang, J.; Wang, J.; Ma, J.; Yuan, Z.; Lincoln, S.; Guo, X. |
| 2023 | Polyaspartic polyurea/graphene nanocomposites for multifunctionality: Self-healing, mechanical resilience, electrical and thermal conductivities, and resistance to corrosion and impact | Meng, Q.; Wang, P.; Yu, Y.; Liu, J.; Su, X.; Kuan, H.C.; Wang, B.; Zhang, L.; Zhang, Y.; Losic, D.; Ma, J. |
| 2016 | Recent progress and performance evaluation for polyaniline/graphene nanocomposites as supercapacitor electrodes | Moussa, M.; El-Kady, M.F.; Zhao, Z.; Majewski, P.; Ma, J. |
| 2022 | Ultra-stable zinc-ion batteries by suppressing vanadium dissolution via multiple ion-bonded vanadate cathodes | Yu, H.; Whittle, J.D.; Losic, D.; Ma, J. |
| 2020 | Uniform polypyrrole layer-coated sulfur/graphene aerogel via the vapor-phase deposition technique as the cathode material for Li-S batteries | Li, F.; Kaiser, M.R.; Ma, J.; Hou, Y.; Zhou, T.; Han, Z.; Lai, W.; Chen, J.; Guo, Z.; Liu, H.; Wang, J. |