Hierarchical Lamellar‐Structured MnO<sub>2</sub>@graphene for High Performance Li, Na and K ion Batteries

Zhang, Wenyang; Jin, Huixin; Du, Yiqun; Zhang, Youjian; Wang, Zihan; Zhang, Jianxin

doi:10.1002/slct.202003584

Cited by 14 publications

(7 citation statements)

References 44 publications

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“…Zhang et al 89 reported three different three-component reactions for the synthesis of 1,5-BZDs (33) containing a indole ring introduced by Fe 3 O 4 @SiO 2 -PTSA as a magnetic nanocatalyst in EtOH. All reactions involved two common components, namely, OPD (1) and isatin (30), but the third component was ethyl acetoacetate (31) or 3-butyne-2-one (32) or benzoylacetone (14) and gave product (33).…”

Section: 5-bzdsmentioning

confidence: 99%

“…Zhang and colleges 89 developed an efficient method for the synthesis of BZDs (33) using substituted OPD (1), N , N -dimethylformamide dimethylacetal (44), aromatic acetone (10) and isatin (30) in ethanol at reflux to RT. The authors obtained 10 new compounds (33) in 5–12 h in 79–90% yield using various aromatic ketones and substituted OPD.…”

Section: Synthetic Approaches Of Bzdsmentioning

confidence: 99%

See 1 more Smart Citation

Synthetic aspects of 1,4- and 1,5-benzodiazepines usingo-phenylenediamine: a study of past quinquennial

Teli¹,

Teli²,

Soni³

et al. 2023

RSC Adv.

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Section: 5-bzdsmentioning

confidence: 99%

Section: Synthetic Approaches Of Bzdsmentioning

confidence: 99%

Synthetic aspects of 1,4- and 1,5-benzodiazepines usingo-phenylenediamine: a study of past quinquennial

Teli¹,

Teli²,

Soni³

et al. 2023

RSC Adv.

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show abstract

“…Sandwiched between graphene nanosheets, the electrical conductivity and mechanical stability of MnO 2 electrodes are highly enhanced, enabling them to withstand large current shocks and longtime cycling. 12 Zhang et al constructed an integrated array (N-CNSs@MnO 2 ) by rationally anchoring the active MnO 2 on a novel N-doped porous carbon nanosheet (N-CNS) array grown on carbon cloth, which had good flexibility, high conductivity, and large porosity. 13 However, neither the one-dimensional carbon nanotubes nor the two-dimensional nanosheets and graphene can effectively provide enough ion diffusion paths and volume expansion space.…”

Section: Introductionmentioning

confidence: 99%

“…Zhang et al synthesized a hierarchical lamellar-structured MnO 2 @graphene, in which the lamellar-structured MnO 2 and nanosheets of graphene combined together to form the composite with a good electronic conductivity as well as a huge surface area for reactions. Sandwiched between graphene nanosheets, the electrical conductivity and mechanical stability of MnO 2 electrodes are highly enhanced, enabling them to withstand large current shocks and longtime cycling . Zhang et al constructed an integrated array (N-CNSs@MnO 2 ) by rationally anchoring the active MnO 2 on a novel N-doped porous carbon nanosheet (N-CNS) array grown on carbon cloth, which had good flexibility, high conductivity, and large porosity .…”

Section: Introductionmentioning

confidence: 99%

Kinetics-Driven MnO₂ Nanoflowers Supported by Interconnected Porous Hollow Carbon Spheres for Zinc-Ion Batteries

Lin

Zhang

et al. 2023

ACS Appl. Mater. Interfaces

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For rechargeable aqueous zinc-ion batteries (ZIBs), manganese dioxide is one of the most promising candidates as a cathode material because of its cost effectiveness, eco-friendliness, and high specific capacities. However, the ZIBs suffer from poor rate performance and low cycle life due to the weak intrinsic electronic conductivity of manganese dioxide, poor ion diffusion of lump manganese dioxide, and its volumetric expansion during the cycle. Herein, we prepare MnO 2 @carbon composites (MnO 2 @ IPHCSs) by in situ growing MnO 2 nanoflowers on an interconnected porous hollow carbon spheres (IPHCSs) template. IPHCSs, as excellent conductors, significantly improve the conductivity of the manganese dioxide cathode. The hollow porous carbon framework of IPHCSs can offer more ion diffusion paths to internal MnO 2 @IPHCS carbon composites and acts as a buffer room to cope with the drastic volume contraction and expansion during charge/discharge cycling. The rate performance tests show that MnO 2 @IPHCSs with high conductivity have a specific capacity of 147 mA h g −1 at 3 C. MnO 2 @IPHCSs with hollow and nanoflower structures are shown to have excellent ion diffusion performance (ion diffusion coefficient = 10 −11 to 10 −10 cm 2 s −1 ) in the electrochemical kinetics of the galvanostatic intermittent titration technique. Long cycle performance testing and in situ Raman characterization reveal that MnO 2 @IPHCSs have high cycling stability (85.5% capacity retention after 800 cycles) and reversibility due to the enhanced structure and increased conductivity. The excellently conductive manganese dioxide supported by IPHCSs has good rate and cycling performance, which can be used to produce superior-performance ZIBs.

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“…Benefitting from the abundant K resources, [1][2][3][4][5] the superior electrical conductivity of Se than that of S (Se: 1 × 10 À 3 S m À 1 ; S: 5 × 10 À 28 S m À 1 ) and high theoretical specific capacity (675 mAh g À 1 ) and volumetric capacity (3253 mAh cm À 3 ) of Se, [6][7] KÀ Se battery has been regarded as one of the most promising candidates for Li-ion batteries. Unfortunately, just like sulfur-based batteries, [8] the Se cathode also suffers from similar obstacles in particle application, such as the enormous volumetric variation of Se (nearly 400 % during cycling), [9] the profound shuttle effect of potassium polyselenides (KPSs) and sluggish reaction kinetics of Se species, [8,[10][11][12] which could lead to rapid capacity decay and lower utilization of active Se.…”

Section: Introductionmentioning

confidence: 99%

Hierarchical Porous Carbon Embedded MoSe₂ Effectively Improve Cycle Stability in K‐Se Battery

Yang

Jamil

2023

ChemistrySelect

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It is a crucial challenge to control the dissolution and diffusion of polyselenides in the KÀ Se system. Herein, a polar material MoSe 2 was introduced into Chitosan-derived hierarchical porous carbon (MoSe 2 -HPC) for the first time by a simple freeze-dried carbonization method, which was used as host materials of Se. The porous carbon plays a vital role in alleviating volume expansion from Se to K 2 Se and affording physical restriction effect for generating potassium polyselenides (KPSs). The adsorption experiment can prove that the additive MoSe 2 as active site can effectively anchor soluble KPSs by remarkable polar interaction to achieve raising electrochemistry performance. Therefore, the Se@MoSe 2 -HPC cathode presents superior cycling stability with a specific capacity of 323.2 mAh g À 1 after 500 cycles at 1 C and satisfactory rate performance of 261.7 mAh g À 1 at 5 C, demonstrating the great potential of MoSe 2 as polar adsorption component for KÀ Se batteries cathode materials.

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Hierarchical Lamellar‐Structured MnO₂@graphene for High Performance Li, Na and K ion Batteries

Cited by 14 publications

References 44 publications

Synthetic aspects of 1,4- and 1,5-benzodiazepines usingo-phenylenediamine: a study of past quinquennial

Synthetic aspects of 1,4- and 1,5-benzodiazepines usingo-phenylenediamine: a study of past quinquennial

Kinetics-Driven MnO₂ Nanoflowers Supported by Interconnected Porous Hollow Carbon Spheres for Zinc-Ion Batteries

Hierarchical Porous Carbon Embedded MoSe₂ Effectively Improve Cycle Stability in K‐Se Battery

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Hierarchical Lamellar‐Structured MnO2@graphene for High Performance Li, Na and K ion Batteries

Cited by 14 publications

References 44 publications

Synthetic aspects of 1,4- and 1,5-benzodiazepines usingo-phenylenediamine: a study of past quinquennial

Synthetic aspects of 1,4- and 1,5-benzodiazepines usingo-phenylenediamine: a study of past quinquennial

Kinetics-Driven MnO2 Nanoflowers Supported by Interconnected Porous Hollow Carbon Spheres for Zinc-Ion Batteries

Hierarchical Porous Carbon Embedded MoSe2 Effectively Improve Cycle Stability in K‐Se Battery

Contact Info

Product

Resources

About

Hierarchical Lamellar‐Structured MnO₂@graphene for High Performance Li, Na and K ion Batteries

Kinetics-Driven MnO₂ Nanoflowers Supported by Interconnected Porous Hollow Carbon Spheres for Zinc-Ion Batteries

Hierarchical Porous Carbon Embedded MoSe₂ Effectively Improve Cycle Stability in K‐Se Battery