Cable‐Shaped Lithium–Sulfur Batteries Based on Nitrogen‐Doped Carbon/Carbon Nanotube Composite Yarns

Abstract: investigated carefully due to their strong mechanical properties and comprehensive orientational flexibility of one-dimensional (1D) architecture, [22] and 1D cable type devices can be bent into various shape and applied to electronic fabrics. [23] Cableshaped energy storage devices have been studied mostly due to their importance in electronic fabrics.The current cable-shaped lithium-ion batteries and supercapacitors, [24] however, cannot fully meet the requirements of practical applications due to the low en… Show more

“…For instance, the sulfurloaded ring-like structure of MWCNTs has been established to promote electron transfer by the interconnected conductive network, as shown in Figure 11c. [110] Furthermore, cathodes in different forms (including 1D yarn, [111] 2D (freestanding) [103] Copyright 2020, American Chemical Society. b) Simulated configuration of CNTs with open rings created by thermal oxidation in air.…”

“…For instance, the sulfur‐loaded ring‐like structure of MWCNTs has been established to promote electron transfer by the interconnected conductive network, as shown in Figure 11c. [ 110 ] Furthermore, cathodes in different forms (including 1D yarn, [ 111 ] 2D (freestanding) films, [ 112 ] and 3D foams [ 113 ] /sponges [ 109a,114 ] /aerogels [ 115 ] ) have been prepared to not only improve the (cycling) performance of the cathode but also optimize the configuration of the batteries (such as eliminating the metal current collector [ 116 ] ). Superlong CNTs (2 mm in length) hybridized with graphene, for example, have been integrated with sulfur in fabricating freestanding cathodes with high mechanical strength (above 2 MPa at a strain of ≈10%).…”

Solutions to the Challenges of Lithium–Sulfur Batteries by Carbon Nanotubes

“…For instance, the sulfurloaded ring-like structure of MWCNTs has been established to promote electron transfer by the interconnected conductive network, as shown in Figure 11c. [110] Furthermore, cathodes in different forms (including 1D yarn, [111] 2D (freestanding) [103] Copyright 2020, American Chemical Society. b) Simulated configuration of CNTs with open rings created by thermal oxidation in air.…”

“…For instance, the sulfur‐loaded ring‐like structure of MWCNTs has been established to promote electron transfer by the interconnected conductive network, as shown in Figure 11c. [ 110 ] Furthermore, cathodes in different forms (including 1D yarn, [ 111 ] 2D (freestanding) films, [ 112 ] and 3D foams [ 113 ] /sponges [ 109a,114 ] /aerogels [ 115 ] ) have been prepared to not only improve the (cycling) performance of the cathode but also optimize the configuration of the batteries (such as eliminating the metal current collector [ 116 ] ). Superlong CNTs (2 mm in length) hybridized with graphene, for example, have been integrated with sulfur in fabricating freestanding cathodes with high mechanical strength (above 2 MPa at a strain of ≈10%).…”

Solutions to the Challenges of Lithium–Sulfur Batteries by Carbon Nanotubes

Carbon materials dedicate to bendable supports for flexible lithium-sulfur batteries

Synergistic capture and conversion of polysulfides in cathode composites with multidimensional framework structures