1. (a) Hu Z.; Liu Q.; Chou S. L.; Dou S. X. Advances and challenges in metal sulfides/selenides for next‐generation rechargeable sodium‐ ion batteries.Adv. Mater.2017 29 1700606 b) Indra A.; Song T.; Paik U. Metal organic framework derived materials: progress and prospects for the energy conversion and storage.Adv. Mater.2018 30 e1705146 c) Li F.; Liu Q.; Hu J.; Feng Y.; He P.; Ma J. Recent advances in cathode materials for rechargeable lithium‐sulfur batteries.Nanoscale2019 11 15418–15439 d) Qian J.; Wu C.; Cao Y.; Ma Z.; Huang Y.; Ai X.; Yang H. Prussian blue cathode materials for sodium‐ion batteries and other ion batteries.Adv. Energy Mater.2018 8 1702619 e) Zhang X.; Rui X.; Chen D.; Tan H.; Yang D.; Huang S.; Yu Y. Na3V2(PO4)3: an advanced cathode for sodium‐ion batteries.Nanoscale2019 11 2556–2576.

2. (a) Sun Y.; Guo S.; Zhou H. Exploration of advanced electrode materials for rechargeable sodium‐ion batteries.Adv. Energy Mater.2018 9 1800212 b) Jeong J.; Chun J.; Lim W. G.; Kim W. B.; Jo C.; Lee J. Mesoporous carbon host material for stable lithium metal anode.Nanoscale2020 12 11818–11824 c) Yin H.; Qu H.‐Q.; Liu Z.; Jiang R.‐Z.; Li C.; Zhu M.‐Q. Long cycle life and high rate capability of three dimensional CoSe2grain‐attached carbon nanofibers for flexible sodium‐ion batteries.Nano Energy2019 58 715–723 d) Fang Y.; Chen Z.; Xiao L.; Ai X.; Cao Y.; Yang H. Recent progress in iron‐based electrode materials for grid‐scale sodium‐ion batteries.Small2018 14 1703116 e) Li L.; Zheng Y.; Zhang S.; Yang J.; Shao Z.; Guo Z. Recent progress on sodium ion batteries: potential high‐performance anodes.Energy Environ. Sci.2018 11 2310–2340.

3. (a) Li F.; Zhou Z. Micro/nanostructured materials for sodium ion batteries and capacitors.Small2018 14 1702961 b) Wang Y.; Cao D.; Zhang K.; Kang W.; Wang X.; Ma P.; Wan Y.; Cao D.; Sun D. Cation‐exchange construction of ZnSe/Sb2Se3hollow microspheres coated by nitrogen‐doped carbon with enhanced sodium ion storage capability.Nanoscale2020 12 17915–17924 c) Chu H.; Pei Y.; Cui Z.; Steven C.; Dong P.; Ajayan P. M.; Ye M.; Shen J. A 3D graphene current collector boosts ultrahigh specific capacity in a highly uniform Prussian blue@graphene composite as a freestanding cathode for sodium ion batteries.Nanoscale2018 10 14697–14704 d) Che H.; Chen S.; Xie Y.; Wang H.; Amine K.; Liao X.‐Z.; Ma Z.‐F. Electrolyte design strategies and research progress for room‐temperature sodium‐ion batteries.Energy Environ. Sci.2017 10 1075–1101 e) Fang Y.; Yu X. Y.; Lou X. W. D. Formation of Hierarchical Cu‐Doped CoSe2Microboxes via Sequential Ion Exchange for High‐ Performance Sodium‐Ion Batteries.Adv. Mater.2018 30 e1706668 f) Von Lim Y.; Huang S.; Wu Q.; Zhang Y.; Kong D.; Wang Y.; Xu T.; Shi Y.; Ge Q.; Ang L. K.; Yang H. Y. Rhenium disulfide nanosheets/ carbon composite as novel anodes for high‐rate and long lifespan sodium‐ion batteries.Nano Energy2019 61 626–636.

4. (a)Zhou J.;Lin J.;Huang X.;Zhou Y.;Chen Y.;Xia J.;Wang H.;Xie Y.;Yu H.;Lei J.;Wu D.;Liu F.;Fu Q.;Zeng Q.;Hsu C. H.;Yang C.;Lu L.;Yu T.;Shen Z.;Lin H.;Yakobson B. I.;Liu Q.;Suenaga K.;Liu G.; Liu Z. A library of atomically thin metal chalcogenides.Nature2018 556 355–359 b) Lin Y.; Qiu Z.; Li D.; Ullah S.; Hai Y.; Xin H.; Liao W.; Yang B.; Fan H.; Xu J.; Zhu C. NiS2@CoS2nanocrystals encapsulated in N‐doped carbon nanocubes for high performance lithium/sodium ion batteries.Energy Storage Mater.2018 11 67–74 c) Wang X.; Li X.; Li Q.; Li H.; Xu J.; Wang H.; Zhao G.; Lu L.; Lin X.; Li H.; Li S. Improved electrochemical performance based on nanostructured SnS2@CoS2‐rGO composite anode for sodium‐ion batteries.Nano‐micro Lett.2018 10 46 d) Liu X.; Wu J.; Wang M.; Fan H.; Zhang Y. N‐doped carbon nanocapsules as nanoreactors to boost lithium storage performance of Co‐based oxide nanocrystallines.Ceram. Int.2020 46 27608–27615 e) Liu Y.; Yu X.‐Y.; Fang Y.; Zhu X.; Bao J.; Zhou X.; Lou X. W. Confining SnS2ultrathin nanosheets in hollow carbon nanostructures for efficient capacitive sodium storage.Joule2018 2 725–735 f) Fan H.; Yu H.; Zhang Y.; Guo J.; Wang Z.; Wang H.; Zhao N.; Zheng Y.; Du C.; Dai Z.; Yan Q.; Xu J. 1D to 3D hierarchical iron selenide hollow nanocubes assembled from FeSe2@C core‐shell nanorods for advanced sodium ion batteries.Energy Storage Mater.2018 10 48–55.

5. NiSe2 nanooctahedra as anodes for high-performance sodium-ion batteries