2015
DOI: 10.1021/acsnano.5b00376
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Red Phosphorus–Single-Walled Carbon Nanotube Composite as a Superior Anode for Sodium Ion Batteries

Abstract: Sodium ion batteries (SIBs) have been considered as a top alternative to lithium ion batteries due to the earth abundance and low cost of sodium compared with lithium. Among all proposed anode materials for SIBs, red phosphorus (P) is a very promising candidate because it has the highest theoretical capacity (∼2600 mAh/g). In this study, a red P-single-walled carbon nanotube (denoted as red P-SWCNT) composite, in which red P is uniformly distributed between tangled SWCNTs bundles, is fabricated by a modified v… Show more

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Cited by 372 publications
(340 citation statements)
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“…However, phosphorus electrode still suffers from instability problems, despite the numerous attempts that have been made with different phosphorus polymorphs and/or different kinds of electrode support materials. [31][32][33] In the present study, we use the unique environment provided by the hollow core inside SWCNTs to encapsulate both sulfur and phosphorous molecules, in order to address some of the unanswered questions and performance issues of both LIS and SIB. First, we compare the physical stability of sulfur molecules inserted in MPC and in SWCNTs having different tube diameters, then we report the LIS battery electrode properties of sulfur encapsulated SWCNTs (S@SWCNTs).…”
Section: -2mentioning
confidence: 99%
“…However, phosphorus electrode still suffers from instability problems, despite the numerous attempts that have been made with different phosphorus polymorphs and/or different kinds of electrode support materials. [31][32][33] In the present study, we use the unique environment provided by the hollow core inside SWCNTs to encapsulate both sulfur and phosphorous molecules, in order to address some of the unanswered questions and performance issues of both LIS and SIB. First, we compare the physical stability of sulfur molecules inserted in MPC and in SWCNTs having different tube diameters, then we report the LIS battery electrode properties of sulfur encapsulated SWCNTs (S@SWCNTs).…”
Section: -2mentioning
confidence: 99%
“…These values were much higher than those of other P/C composites prepared by the vaporization-condensationconversion method as reported in the literature [6,9,26,27,31,32,34]. This might be attributed to the structure of the P@AC@CNT-3 composites, on the surface of which the openings were well sealed and the low S BET dramatically decreased the irreversible insertion of Li or Na into AC@CNT (Fig.…”
Section: Battery Performancementioning
confidence: 60%
“…Red P has received more attention as an anode material for batteries than black P, as the former is abundant and environmentally benign [25][26][27][28]. However, the practical application of red P in batteries is severely hindered by its low electronic conductivity (~10-14 S cm −1 ) and significant volume change during charging/ discharging process (~300% and~400% in LIB and NIB applications, respectively) [26,[29][30][31][32]. These limitations cause the fracture of the electrode material during cycling, rapid capacity decay, and poor electrochemical performance at high charging/discharging rate [9].…”
Section: Introductionmentioning
confidence: 99%
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