Tailoring Rational Crystal Orientation and Tunable Sulfur Vacancy on Metal‐Sulfides toward Advanced Ultrafast Ion‐Storage Capability

Abstract: Attracted by high energy density and power density, metal‐sulfides anodes have promising application prospects in fast charging batteries. However, they still suffer from low electrical conductivity and sluggish electrochemical kinetics, resulting in poor fast charging capacity. Herein, spindle‐like antimony sulfide (Sb2S3) is rationally tailored with favorable (hk1) crystal orientation and rich S‐vacancies using a simple hydrothermal method, which improve electric conductivity significantly. Triggered by S‐va… Show more

“…50,51 The ε ′ and ε ′′ values of the last two samples undergo a huge enhancement with respect to Ni(OH) 2 @De, suggesting that sulfide increases the dielectric properties of the samples in the form of phase components, vacancies, and defects. 52 The presence of abundant defects and a large number of interfaces after sulfurization was demonstrated by XRD, EPR, and SEM, leading to significant polarization, 53 thus synergistically contributing to the dielectric attenuation performance. 54 According to the electronic free-electron theory, high conductivity leads to high ε values, which in turn increases the dielectric loss and leads to improved performance, which is in agreement with the later conclusions.…”

“…By adjusting the thickness, the purpose of realizing the absorption in different bands can be achieved, which has a strong practical application, and further illustrates that the performance of the samples is greatly improved after sulfurization of the samples due to the incorporation of vacancy engineering. 52 To further improve the performance of the sample, we etched the sample and surprisingly, the RL min is −93.53 dB and the EAB is 7.79 GHz at Ni x S y @De-etched with a thickness of only 1.16 mm. Its excellent broadband absorption can reach 7.79 GHz at an ultra-thin thickness of 1.16 mm (10.21–18.0 GHz).…”

Three-dimensional biotemplate-loaded nickel sulfide vacancies engineered to promote the absorption of electromagnetic waves

“…50,51 The ε ′ and ε ′′ values of the last two samples undergo a huge enhancement with respect to Ni(OH) 2 @De, suggesting that sulfide increases the dielectric properties of the samples in the form of phase components, vacancies, and defects. 52 The presence of abundant defects and a large number of interfaces after sulfurization was demonstrated by XRD, EPR, and SEM, leading to significant polarization, 53 thus synergistically contributing to the dielectric attenuation performance. 54 According to the electronic free-electron theory, high conductivity leads to high ε values, which in turn increases the dielectric loss and leads to improved performance, which is in agreement with the later conclusions.…”

“…By adjusting the thickness, the purpose of realizing the absorption in different bands can be achieved, which has a strong practical application, and further illustrates that the performance of the samples is greatly improved after sulfurization of the samples due to the incorporation of vacancy engineering. 52 To further improve the performance of the sample, we etched the sample and surprisingly, the RL min is −93.53 dB and the EAB is 7.79 GHz at Ni x S y @De-etched with a thickness of only 1.16 mm. Its excellent broadband absorption can reach 7.79 GHz at an ultra-thin thickness of 1.16 mm (10.21–18.0 GHz).…”

Three-dimensional biotemplate-loaded nickel sulfide vacancies engineered to promote the absorption of electromagnetic waves

“…27,28 But, considering previous reports about ion-storage behavior, Na-ion storage behavior should be further explored in different storage regions with the utilization of diverse electrolytes. [29][30][31] In this work, natural anthracite was utilized as a precursor to prepare a series of carbon materials (O, S-doped carbon) through control over carbonization temperature, displaying thin graphitized microcrystals and larger interlayer distances. Aer the optimized process, the resulting samples displayed considerable energy-storage abilities.…”

“…27,28 But, considering previous reports about ion-storage behavior, Na-ion storage behavior should be further explored in different storage regions with the utilization of diverse electrolytes. 29–31…”

Tailoring natural anthracite carbon materials towards considerable electrochemical properties with exploration of ester/ether-based electrolyte

“…Recently, metal-based sulfides, metal-based materials, and carbon-based materials have received increasing attention as SIB anode materials. − Among them, the theoretical capacity of metal sulfides (such as ZnS, Sb 2 S 3 , NiS, etc.) are particularly prominent, which have been studied by researchers. − Zhang et al prepared ZnS nanofibers by a template method and obtained an initial reversible capacity of 603 mAh g –1 at 100 mA g –1 .…”

Mesoporous ZnS-Sb/C Reduced Graphene Oxide Nanostructures as Anode Materials for Sodium-Ion Batteries