Journal of Inorganic Materials, Volume. 39, Issue 9, 1013(2024)
[1] E POMERANTSEVA, F BONACCORSO, X FENG et al. Energy storage: the future enabled by nanomaterials. Science, eaan8285(2019).
[2] Z P CANO, D BANHAM, S YE et al. Batteries and fuel cells for emerging electric vehicle markets. Nature energy, 279(2018).
[3] C SUN, X LIAO, F XIA et al. High-voltage cycling induced thermal vulnerability in LiCoO2 cathode: cation loss and oxygen release driven by oxygen vacancy migration. ACS Nano, 6181(2020).
[4] N N SU, J R HAN, Y H GUO et al. ZIF-8-derived three- dimensional silicon-carbon network composite for high- performance lithium-ion batteries. Journal of Inorganic Materials, 1016(2022).
[5] X L WANG, N ZHOU, Y W TIAN et al. SnS2/ZIF-8 derived two- dimensional porous nitrogen-doped carbon nanosheets for lithium- sulfur batteries. Journal of Inorganic Materials, 938(2023).
[7] P G BRUCE, S A FREUNBERGER, L J HARDWICK et al. Li-O2 and Li-S batteries with high energy storage. Nature Materials, 19(2012).
[9] C LU, W ZHANG, R FANG et al. Facile and efficient synthesis of Li2Se particles towards high-areal capacity Li2Se cathode for advanced Li-Se battery. Sustainable Materials and Technologies, e00288(2021).
[10] X HU, J LI, G ZHONG et al. Hierarchical multicavity nitrogen-doped carbon nanospheres as efficient polyselenide reservoir for fast and long-life sodium-selenium batteries. Small, 2005534(2020).
[11] W D DONG, C F LI, H Y LI et al. The chain-mail Co@C electrocatalyst accelerating one-step solid-phase redox for advanced Li-Se batteries. Journal of Materials Chemistry A, 8059(2022).
[12] N FENG, K XIANG, L XIAO et al. Se/CNTs microspheres as improved performance for cathodes in Li-Se batteries. Journal of Alloys and Compounds, 537(2019).
[13] Z LI, J ZHANG, H B WU et al. An improved Li-SeS2 battery with high energy density and long cycle life. Advanced Energy Materials, 1700281(2017).
[15] J LI, J SONG, L LUO et al. Synergy of MXene with Se infiltrated porous N-doped carbon nanofibers as Janus electrodes for high-performance sodium/lithium-selenium batteries. Advanced Energy Materials, 2200894(2022).
[16] X ZHAO, L JIANG, C MA et al. The synergistic effects of nanoporous fiber TiO2 and nickel foam interlayer for ultra-stable performance in lithium-selenium batteries. Journal of Power Sources, 229534(2021).
[17] J WANG, Q MA, S SUN et al. Highly aligned lithiophilic electrospun nanofiber membrane for the multiscale suppression of Li dendrite growth. Science, 655(2022).
[18] R LUO, Z ZHANG, J ZHANG et al. Bimetal CoNi active sites on mesoporous carbon nanosheets to kinetically boost lithium-sulfur batteries. Small, 2100414(2021).
[19] W W JIN, H J LI, J Z ZOU et al. Metal organic framework- derived carbon nanosheets with fish-scale surface morphology as cathode materials for lithium-selenium batteries. Journal of Alloys and Compounds, 153084(2020).
[20] F GAO, X A YUE, X Y XU et al. A N/Co co-doped three-dimensional porous carbon as cathode host for advanced lithium-selenium batteries. Rare Metals, 2670(2023).
[21] J LI, J JIANG, Y ZHOU et al. Nickel single-atom catalysts on porous carbon nanosheets for high-performance lithium-selenium batteries. Energy, 129434(2023).
[22] Y HUANG, Y WANG, X ZHANG et al. N-doped carbon@nanoplate-assembled MoS2 hierarchical microspheres as anode material for lithium-ion batteries. Materials Letters, 84(2019).
[23] B L ELLIS, P KNAUTH, T DIENIZIAN. Three-dimensional self-supported metal oxides for advanced energy storage. Advanced Materials, 3368(2014).
[24] X ZHOU, Z DAI, S LIU et al. Ultra-uniform SnO
[25] M ZHOU, W DONG, A XU et al. Surface iodine modification inducing robust CEI enables ultra-stable Li-Se batteries. Chemical Engineering Journal, 140803(2023).
[26] Z WANG, Z RUAN, W S NG et al. Integrating a triboelectric nanogenerator and a zinc-ion battery on a designed flexible 3D spacer fabric. Small Methods, 1800150(2018).
[27] Z YANG, K ZHU, Z DONG et al. Stabilization of Li-Se batteries by wearing PAN protective clothing. ACS Applied Materials & Interfaces, 40069(2019).
[28] Z WANG, J SHEN, J LIU et al. Self-supported and flexible sulfur cathode enabled
[29] H Y LI, C LI, Y Y WANG et al. Pore structure unveiling effect to boost lithium-selenium batteries: selenium confined in hierarchically porous carbon derived from aluminum based MOFs. Chemical Synthesis, 30(2023).
[30] H Y LI, C LI, Y Y WANG et al. Selenium confined in ZIF-8 derived porous carbon@MWCNTs 3D networks: tailoring reaction kinetics for high performance lithium-selenium batteries. Chemical Synthesis, 8(2022).
[31] J P SONG, L WU, W D DONG et al. MOF-derived nitrogen-doped core-shell hierarchical porous carbon confining selenium for advanced lithium-selenium batteries. Nanoscale, 6970(2019).
[32] L SHA, P GAO, X REN et al. A self-repairing cathode material for lithium-selenium batteries: Se-C chemically bonded selenium- graphene composite. Chemistry - A European Journal, 2151(2018).
[33] X WANG, Y TAN, Z LIU et al. New insight into the confinement effect of microporous carbon in Li/Se battery chemistry: a cathode with enhanced conductivity. Small, 2000266(2020).
[34] J YANG, H GAO, D MA et al. High-performance Li-Se battery cathode based on CoSe2-porous carbon composites. Electrochimica Acta, 341(2018).
[35] R MUKKABLA, S DESHAGANI, P MEDURI et al. Selenium/graphite platelet nanofiber composite for durable Li-Se batteries. ACS Energy Letters, 1288(2017).
[36] J M SUN, Z Z DU, Y H LIU et al. State-of-the-art and future challenges in high energy lithium-selenium batteries. Advanced Materials, 36(2021).
[37] J LI, D YAN, Y WANG et al. NiS2 nanoparticles decorated hierarchical porous carbon for high-performance lithium-selenium batteries. Electrochimica Acta, 143422(2023).
[38] B LU, Y M LI, S F LIU et al. Cobalt nanoparticles inlayed N-doped mesoporous carbon microspheres for high performance lithium-selenium battery. Journal of Electroanalytical Chemistry, 117799(2023).
[39] H LI, W DONG, C LI et al. Boosting reaction kinetics and shuttle effect suppression by single crystal MOF-derived N-doped ordered hierarchically porous carbon for high performance Li-Se battery. Science China Materials, 2975(2022).
[40] Q ZHOU, X QI, Y ZHOU et al. Zinc-cobalt-bimetallic catalyst on three-dimensional ordered nitrogen-doped porous carbon for high-performance lithium-selenium batteries. Journal of Alloys and Compounds, 168944(2023).
Get Citation
Copy Citation Text
Daoxiang XUN, Xuwei LUO, Mingran ZHOU, Jiale HE, Maojin RAN, Zhiyi HU, Yu LI.
Category:
Received: Jan. 11, 2024
Accepted: --
Published Online: Dec. 13, 2024
The Author Email: LI Yu (yu.li@whut.edu.cn)