Interlayer-Expanded MoS2 Enabled by Sandwiched Monolayer Carbon for High Performance Potassium Storage
暂无分享,去创建一个
Haojie Duan | Haiyong He | Qian Wu | Yuting Zhang | Yuting Zhang | Lin Zhu | Hongqiang Xu | Qian Wu | Hongqiang Xu | Boshi Chen | Haiyong He | Boshi Chen | Boshi Chen
[1] J. Wang,et al. The exfoliation of bulk MoS2 by a three-roller mill for high-performance potassium ion batteries , 2022, Applied Surface Science.
[2] Yong Cheng,et al. Boosting Reversibility of Conversion/Alloying Reactions for Sulfur-Rich Antimony-Based Sulfides with Extraordinary Potassium Storage Performance , 2022, ACS Materials Letters.
[3] Li Sun,et al. Double-phase 1T/2H-MoS2 heterostructure loaded in N-doped carbon/CNT complex carbon for efficient and rapid lithium storage , 2022, Materials Today Energy.
[4] M. Orazem,et al. Impedance Analysis of Electrochemical Systems. , 2022, Chemical reviews.
[5] Yonghong Cheng,et al. Nanostructure and Advanced Energy Storage: Elaborate Material Designs Lead to High-Rate Pseudocapacitive Ion Storage. , 2022, ACS nano.
[6] N. Zhao,et al. Interface Engineering of MoS2-based Ternary Hybrids towards Reversible Conversion of Sodium Storage , 2022, Materials Today Energy.
[7] Weihua Chen,et al. Rationally Designed Three-Layered TiO2 @amorphous MoS3 @Carbon Hierarchical Microspheres for Efficient Potassium Storage. , 2022, Small.
[8] S. Jun,et al. Recent Advances and Perspectives of Battery-Type Anode Materials for Potassium Ion Storage. , 2021, ACS nano.
[9] Yanping Zhou,et al. Structural Engineering in Graphite‐Based Metal‐Ion Batteries , 2021, Advanced Functional Materials.
[10] Yan Yu,et al. From 0D to 3D: Dimensional Control of Bismuth for Potassium Storage with Superb Kinetics and Cycling Stability , 2021, Advanced Energy Materials.
[11] Baohua Li,et al. Pseudo-capacitance reinforced modified graphite for fast-charging potassium-ion batteries , 2021, Carbon.
[12] Guangyu Zhao,et al. A MoS2 and Graphene Alternately Stacking van der Waals Heterostructure for Li+/Mg2+ Co‐Intercalation , 2021, Advanced Functional Materials.
[13] Wei Huang,et al. Facile Preparation of MoS2 Nanocomposites for Efficient Potassium-Ion Batteries by Grinding-Promoted Intercalation Exfoliation. , 2021, Small.
[14] Wenli Zhang,et al. Status of rechargeable potassium batteries , 2021 .
[15] Wei Huang,et al. Transition Metal Dichalcogenides: Stacking‐Engineered Heterostructures in Transition Metal Dichalcogenides (Adv. Mater. 16/2021) , 2021 .
[16] W. Mai,et al. Graphite Anode for Potassium Ion Batteries: Current Status and Perspective , 2021, ENERGY & ENVIRONMENTAL MATERIALS.
[17] Seungho Yu,et al. Hierarchically Designed Nitrogen-Doped MoS2/Silicon Oxycarbide Nanoscale Heterostructure as High-Performance Sodium-Ion Battery Anode. , 2021, ACS nano.
[18] Wei Wang,et al. Amorphous carbon/graphite coupled polyhedral microframe with fast electronic channel and enhanced ion storage for potassium ion batteries , 2021 .
[19] A. Rao,et al. Sulfur-assisted large-scale synthesis of graphene microspheres for superior potassium-ion batteries , 2021 .
[20] M. Fang,et al. Potassium-ion batteries: outlook on present and future technologies , 2021, Energy & Environmental Science.
[21] Zhuangjun Fan,et al. Approaching the Theoretical Sodium Storage Capacity and Ultrahigh Rate of Layer‐Expanded MoS2 by Interfacial Engineering on N‐Doped Graphene , 2021, Advanced Energy Materials.
[22] Q. Cai,et al. Hierarchical Microtubes Constructed by MoS2 Nanosheets with Enhanced Sodium Storage Performance. , 2020, ACS nano.
[23] Zhanwei Xu,et al. Densified Metallic MoS2/Graphene Enabling Fast Potassium‐Ion Storage with Superior Gravimetric and Volumetric Capacities , 2020, Advanced Functional Materials.
[24] Xiaogang Zhang,et al. Nanosheets assembled layered MoS2/MXene as high performance anode materials for potassium ion batteries , 2020 .
[25] Huanlei Wang,et al. Controlled Design of Well‐Dispersed Ultrathin MoS2 Nanosheets inside Hollow Carbon Skeleton: Toward Fast Potassium Storage by Constructing Spacious “Houses” for K Ions , 2020, Advanced Functional Materials.
[26] K. Kubota,et al. Research Development on K-Ion Batteries. , 2020, Chemical reviews.
[27] Zhian Zhang,et al. Engineering Hollow Porous Carbon-Sphere-Confined MoS2 with Expanded (002) Planes for Boosting Potassium-Ion Storage. , 2019, ACS applied materials & interfaces.
[28] Huakun Liu,et al. Chemical bonding boosts nano-rose-like MoS2 anchored on reduced graphene oxide for superior potassium-ion storage , 2019, Nano Energy.
[29] G. Meng,et al. Enhancing potassium-ion battery performance by defect and interlayer engineering. , 2019, Nanoscale horizons.
[30] X. Qu,et al. Bamboo‐Like Hollow Tubes with MoS2/N‐Doped‐C Interfaces Boost Potassium‐Ion Storage , 2018, Advanced Functional Materials.
[31] Guozhao Fang,et al. Observation of Pseudocapacitive Effect and Fast Ion Diffusion in Bimetallic Sulfides as an Advanced Sodium‐Ion Battery Anode , 2018 .
[32] Mohit Saraf,et al. Emerging Robust Heterostructure of MoS2-rGO for High-Performance Supercapacitors. , 2018, ACS applied materials & interfaces.
[33] Zhenxing Feng,et al. Co stabilized metallic 1Td MoS2 monolayers: Bottom-up synthesis and enhanced capacitance with ultra-long cycling stability , 2018 .
[34] X. Sun,et al. Ultrahigh Rate and Long‐Life Sodium‐Ion Batteries Enabled by Engineered Surface and Near‐Surface Reactions , 2018, Advanced materials.
[35] Hong Wang,et al. Direct Synthesis of 3D Hierarchically Porous Carbon/Sn Composites via In-situ Generated NaCl Crystals as Templates for Potassium-ion Batteries Anode , 2018 .
[36] Mohit Saraf,et al. Small biomolecule sensors based on an innovative MoS2-rGO heterostructure modified electrode platform: a binder-free approach. , 2017, Dalton transactions.
[37] Xiaodi Ren,et al. MoS2 as a long-life host material for potassium ion intercalation , 2017, Nano Research.
[38] Chun‐Sing Lee,et al. Hierarchical nanotubes assembled from MoS2-carbon monolayer sandwiched superstructure nanosheets for high-performance sodium ion batteries , 2016 .
[39] W. Luo,et al. Potassium Ion Batteries with Graphitic Materials. , 2015, Nano letters.
[40] Longwei Yin,et al. Sandwich-like reduced graphene oxide wrapped MOF-derived ZnCo2O4–ZnO–C on nickel foam as anodes for high performance lithium ion batteries , 2015 .
[41] Qing Zhang,et al. Few-layer MoS2: a promising layered semiconductor. , 2014, ACS nano.
[42] Xintao Zhang,et al. Hierarchical 1 T-MoS2/MoOx@NC microspheres as advanced anode materials for potassium/sodium-ion batteries , 2022 .