2020
DOI: 10.1002/celc.202000204
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One‐Pot Hydrothermal Synthesis of ZnS Nanospheres Anchored on 3D Conductive MWCNTs Networks as High‐Rate and Cold‐Resistant Anode Materials for Sodium‐Ion Batteries

Abstract: A 3D conductive network nanostructured composite of ZnS nanospheres anchored on multiwall carbon nanotubes (denoted as ZnS/MWCNTs) is synthesized via one-pot hydrothermal method as anodes for sodium-ion batteries. The MWCNTs backbone can form an interconnected network and nano-sized ZnS spheres are uniformly and closely anchored on the 3D network of MWCNTs. The morphology and microstructures of the electrode materials can be controlled easily by regulating the concentration of thiourea and the amount of MWCNTs… Show more

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Cited by 31 publications
(22 citation statements)
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“…The peak of C and O elements can be observed due to the absorption of CO 2 , O 2 and H 2 O on the surface of samples and adventitious hydrocarbon from XPS instrument itself [21,36] . In Zn 2p spectrum (Figure 3b), two main peaks at 1044.5 eV and 1021.5 eV are indexed to 2p 3/2 and 2p 1/2 of Zn 2+ , respectively, demonstrating the Zn (II) oxidation state of ZCS‐140 sample [37–38] . Similarly, in Co 2p emission spectrum (Figure 3c), two main peaks at 781.5 eV and 797.5 eV are signed to 2p 1/2 and 2p 3/2 of Co 2+ , while other two peaks at 779.0 eV and 793.9 eV are ascribed to 2p 1/2 and 2p 3/2 of Co 3+ , confirming the both existing of Co (III) and Co(II) oxidation state in ZCS‐140 sample [39] .…”
Section: Resultsmentioning
confidence: 86%
See 1 more Smart Citation
“…The peak of C and O elements can be observed due to the absorption of CO 2 , O 2 and H 2 O on the surface of samples and adventitious hydrocarbon from XPS instrument itself [21,36] . In Zn 2p spectrum (Figure 3b), two main peaks at 1044.5 eV and 1021.5 eV are indexed to 2p 3/2 and 2p 1/2 of Zn 2+ , respectively, demonstrating the Zn (II) oxidation state of ZCS‐140 sample [37–38] . Similarly, in Co 2p emission spectrum (Figure 3c), two main peaks at 781.5 eV and 797.5 eV are signed to 2p 1/2 and 2p 3/2 of Co 2+ , while other two peaks at 779.0 eV and 793.9 eV are ascribed to 2p 1/2 and 2p 3/2 of Co 3+ , confirming the both existing of Co (III) and Co(II) oxidation state in ZCS‐140 sample [39] .…”
Section: Resultsmentioning
confidence: 86%
“…[21,36] In Zn 2p spectrum (Figure 3b), two main peaks at 1044.5 eV and 1021.5 eV are indexed to 2p 3/2 and 2p 1/2 of Zn 2 + , respectively, demonstrating the Zn (II) oxidation state of ZCS-140 sample. [37][38] Similarly, in Co 2p emission spectrum (Figure 3c), two main peaks at 781.5 eV and 797.5 eV are signed to 2p 1/2 and 2p 3/2 of Co 2 + , while other two peaks at 779.0 eV and 793.9 eV are ascribed to 2p 1/2 and 2p 3/2 of Co 3 + , confirming the both existing of Co (III) and Co(II) oxidation state in ZCS-140 sample. [39] The fitted peaks at 803.0 and 785.5 eV are correspond to the shake-up satellite peaks of Co.…”
Section: Resultsmentioning
confidence: 99%
“…The morphology and structure of as‐synthesized ZnS, GO and ZnS/GO was examined through TEM images in Figure 2. ZnS nanoparticles have a diameter of about 100 nm (Figure 2.a) [41]. GO was observed possessing a characteristic wrinkled sheet‐like structure in Figure 2.b [44].…”
Section: Resultsmentioning
confidence: 99%
“…3.0 mmol Zn(CH 3 COO) 2 ⋅ 2H 2 O (0.66 g) and 2.0 M thiourea (12.16 g) were dissolved into the above solution under magnetic stirring for 20 min. The obtained solution was transferred into 100 mL Teflon‐lined sealed autoclave and heated at 140 °C for 4 h. After cooling to the room temperature, the black product was washed thoroughly with DI and absolute ethanol several times [41]. The final product was obtained by drying the collected samples at 60 °C for 12 h under vacuum (Figure 1.a).…”
Section: Methodsmentioning
confidence: 99%
“…The ordered porous structures rapidly infiltrated electrolytes into nanostructure and promote the contact between electrolytes and active materials, thereby greatly enhancing the transport rate of sodium ions. In the meantime, the porous structures also provide sufficient void spaces for the repeated volume changes of the charge/discharge products to minimize structural degradation of electrodes [9b,17c,23a,42] . Moreover, the existence of multi‐level pores are conducive to hosting sodium ions to increase the capacity of batteries without destroying the initial electrode structures [10a] .…”
Section: Advantages Of 3d‐carbonmentioning
confidence: 99%