It still made use of the zinc–copper electrode combination. The first practical battery was invented in 1839 and named the Daniell cell after John Frederic Daniell. Due to fluctuation in the voltage provided by the voltaic cell it wasn't very practical. This battery consisted of a stack of copper and zinc electrodes separated by brine-soaked paper disks. The first electrochemical battery made was devised by Alessandro Volta and was aptly named the Voltaic cell. Energy Mater.Electrodes are an essential part of any battery. Zhu, In situ sulfur reduction and intercalation of graphite oxides for Li–S battery cathodes. Wang, Dense integration of graphene and sulfur through the soft approach for compact lithium/sulfur battery cathode. Fu, Manthiram, Highly reversible Li/dissolved polysulfide batteries with binder-free carbon nanofiber electrodes. Choi, Time-resolved in situ spectroelectrochemical study on reduction of sulfur in N, N′-dimethylformamide. Liu, A conductive interwoven bamboo carbon fiber membrane for Li–S batteries. Zhang, A general and controllable synthesis of Co mS n (Co 9S 8, Co 3S 4, and Co 1−xS) hierarchical microspheres with homogeneous phases. Liu, Hydrothermal synthesis and magnetic properties of nanoplate-assembled hierarchical structured Co 1−xS microrods. Huang, Multi-functional layered WS 2 nanosheets for enhancing the performance of lithium–sulfur batteries. Mazalov, The study of electronic structure of molybdenum and tungsten trisulfides and their lithium intercalates by X-ray electron and X-ray emission and absorption spectroscopy. Lou, Construction of complex CoS hollow structures with enhanced electrochemical properties for hybrid supercapacitors. Long Cai, Synthesis of S/CoS 2 nanoparticles-embedded N-doped carbon polyhedrons from polyhedrons ZIF-67 and their properties in lithium–sulfur batteries. Luo, High performance Li–S battery based on amorphous NiS 2 as the host material for the S cathode. Li, Electric double-layer capacitors based on highly graphitized nanoporous carbons derived from ZIF-67. Rui, In situ formation of hollow hybrids composed of cobalt sulfides embedded within porous carbon polyhedra/carbon nanotubes for high-performance lithium-ion batteries. Zhou, Porous spinel Zn xCo 3−xO 4 hollow polyhedra templated for high-rate lithium-ion batteries. Li, Hollow cobalt-based bimetallic sulfide polyhedra for efficient all-pH-value electrochemical and photocatalytic hydrogen evolution. Hou, SnS 2-compared to SnO 2-stabilized S/C composites toward high-performance lithium sulfur batteries. Cheng, Biological cell derived N-doped hollow porous carbon microspheres for lithium–sulfur batteries. Cai, Polydopamine-coated, nitrogen-doped, hollow carbon–sulfur double-layered core–shell structure for improving lithium–sulfur batteries. Lou, Rational designs and engineering of hollow micro-/nanostructures as sulfur hosts for advanced lithium–sulfur batteries. Jung, Encapsulated monoclinic sulfur for stable cycling of Li–S rechargeable batteries. Wu, Yuan, Confining sulfur in double-shelled hollow carbon spheres for lithium–sulfur batteries. Ko, Structural factors of sulfur cathodes with poly (ethylene oxide) binder for performance of rechargeable lithium sulfur batteries. Edström, Functional, water-soluble binders for improved capacity and stability of lithium–sulfur batteries. Fu, Phosphorous pentasulfide as a novel additive for high-performance lithium–sulfur batteries. Ding, Lithium metal anodes for rechargeable batteries. Chen, Bis (2, 2, 2-trifluoroethyl) ether as an electrolyte co-solvent for mitigating self-discharge in lithium–sulfur batteries. Li, A new class of solvent-in-salt electrolyte for high-energy rechargeable metallic lithium batteries. Manthiram, A free-standing carbon nanofiber interlayer for high-performance lithium–sulfur batteries. Wang, A flexible sulfur–graphene–polypropylene separator integrated electrode for advanced Li–S batteries. Song, Atomic layer deposited TiO 2 on a nitrogen-doped graphene/sulfur electrode for high performance lithium–sulfur batteries. Xiao, A soft approach to encapsulate sulfur: polyaniline nanotubes for lithium–sulfur batteries with long cycle life. Zhang, Designing host materials for sulfur cathodes: from physical confinement to surface chemistry. Li, A flexible nanostructured sulphur–carbon nanotube cathode with high rate performance for Li–S batteries. Scrosati, A high-performance polymer tin sulfur lithium ion battery. Zhang, Designing high-energy lithium–sulfur batteries. Hardwick, Li-O 2 and Li–S batteries with high energy storage. Su, Challenges and prospects of lithium–sulfur batteries.
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