TiB 4 and SrB 8 monolayers: high capacity and zero strain-like anode materials for Li/Na/K/Ca ion batteries

TiB 4 and SrB 8 monolayers: high capacity and zero strain-like anode materials for Li/Na/K/Ca ion batteries

Storage capacity, average open circuit voltage (OCV), diffusion barrier, lattice parameter changes, are key indicators of whether a material would be suitable for use as a Li-ion or non-Li-ion battery (LIB or NLIB) anode. The rapid development of 2D materials over the past few decades has opened up...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2024-01, Vol.26 (5), p.4455-4465
Hauptverfasser: Wang, Yunxin, Liang, Sisi, Tian, Juncheng, Duan, Huixian, Lv, Ying, Wan, Lijia, Huang, Chunlai, Wu, Musheng, Ouyang, Chuying, Hu, Junping
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container_title Physical chemistry chemical physics : PCCP
container_volume 26
creator Wang, Yunxin
Liang, Sisi
Tian, Juncheng
Duan, Huixian
Lv, Ying
Wan, Lijia
Huang, Chunlai
Wu, Musheng
Ouyang, Chuying
Hu, Junping
description Storage capacity, average open circuit voltage (OCV), diffusion barrier, lattice parameter changes, are key indicators of whether a material would be suitable for use as a Li-ion or non-Li-ion battery (LIB or NLIB) anode. The rapid development of 2D materials over the past few decades has opened up new possibilities for these metrics. Using first-principles calculations, we prove that two 2D materials, TiB and SrB , show excellent performance in terms of the above metrics when used as anodes for LIBs or NLIBs. As detailed, TiB has an Li\Na\K\Ca storage capacity of 588 mA h g , 588 mA h g , 588 mA h g , and 1176 mA h g , respectively, and SrB has an Li\Na\K\Ca storage capacity of 308 mA h g , 308 mA h g , 462 mA h g , and 616 mA h g , respectively, and they show good electrical conductivity whether existing Li, Na, K or Ca is adsorbed or not. The diffusion barriers on both surfaces are low, indicating good rate performance. The average OCV is also very low. In particular, the lattice parameters of the two materials change very little during the embedding of Li\Na\K\Ca. For Ti B the corresponding values are about 0.37% (Li), 0.33% (Na), 0.64% (K) and 0.03% (Ca), and for Sr B the corresponding values are about 0.70% (Li), 0.16% (Na), 0.13% (K) and 0.004% (Ca), which imply zero strain-like character and great cycling performance. All the above results show that TiB and SrB monolayers are very promising Li\Na\K\Ca ion battery anodes.
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The rapid development of 2D materials over the past few decades has opened up new possibilities for these metrics. Using first-principles calculations, we prove that two 2D materials, TiB and SrB , show excellent performance in terms of the above metrics when used as anodes for LIBs or NLIBs. As detailed, TiB has an Li\Na\K\Ca storage capacity of 588 mA h g , 588 mA h g , 588 mA h g , and 1176 mA h g , respectively, and SrB has an Li\Na\K\Ca storage capacity of 308 mA h g , 308 mA h g , 462 mA h g , and 616 mA h g , respectively, and they show good electrical conductivity whether existing Li, Na, K or Ca is adsorbed or not. The diffusion barriers on both surfaces are low, indicating good rate performance. The average OCV is also very low. In particular, the lattice parameters of the two materials change very little during the embedding of Li\Na\K\Ca. For Ti B the corresponding values are about 0.37% (Li), 0.33% (Na), 0.64% (K) and 0.03% (Ca), and for Sr B the corresponding values are about 0.70% (Li), 0.16% (Na), 0.13% (K) and 0.004% (Ca), which imply zero strain-like character and great cycling performance. 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For Ti B the corresponding values are about 0.37% (Li), 0.33% (Na), 0.64% (K) and 0.03% (Ca), and for Sr B the corresponding values are about 0.70% (Li), 0.16% (Na), 0.13% (K) and 0.004% (Ca), which imply zero strain-like character and great cycling performance. 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For Ti B the corresponding values are about 0.37% (Li), 0.33% (Na), 0.64% (K) and 0.03% (Ca), and for Sr B the corresponding values are about 0.70% (Li), 0.16% (Na), 0.13% (K) and 0.004% (Ca), which imply zero strain-like character and great cycling performance. All the above results show that TiB and SrB monolayers are very promising Li\Na\K\Ca ion battery anodes.</abstract><cop>England</cop><pmid>38240145</pmid><doi>10.1039/d3cp05287g</doi><tpages>11</tpages><orcidid>https://orcid.org/0000-0003-1366-8328</orcidid><orcidid>https://orcid.org/0000-0002-8917-4650</orcidid><orcidid>https://orcid.org/0000-0002-9664-2870</orcidid></addata></record>
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title TiB 4 and SrB 8 monolayers: high capacity and zero strain-like anode materials for Li/Na/K/Ca ion batteries
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