Iodine-Doped Carbon Nitride with Enhanced Electron Delocalization as Metal-Free Sulfur Hosts for Stable Lithium–Sulfur Batteries
Xu Yan, Ruxin Liao, Kaifu Lin, Shiman Fan, Ren He, Chaoqi Zhang, Hongbing Zhan

TL;DR
This paper introduces iodine-doped carbon nitride as a metal-free sulfur host that improves the performance and stability of lithium–sulfur batteries.
Contribution
The novel use of iodine doping to enhance electron delocalization in carbon nitride for metal-free sulfur hosts in batteries.
Findings
Iodine doping increases the specific surface area and improves sulfur dispersion in the material.
The modified electronic structure enhances charge transport and lithium polysulfide adsorption.
The S@I-CN electrode shows high capacity retention (66.2% after 800 cycles) and excellent cycling stability.
Abstract
Suppressing the polysulfide shuttle effect and accelerating the sulfur redox kinetics remain pivotal challenges for advancing the practical viability of lithium–sulfur batteries (LSBs). In this study, an iodine-doped carbon nitride (I-CN) material was synthesized via a one-step annealing strategy and employed as a metal-free sulfur cathode host. Compared to its pristine counterpart, I-CN exhibits a substantially increased specific surface area, which facilitates the homogeneous dispersion of sulfur species. More importantly, the incorporation of iodine atoms disrupts the equilibrium of the electron cloud distribution within the CN framework, leading to enhanced electron delocalization. This electronic modulation not only significantly improves the charge transport properties of carbon nitride but also strengthens the adsorption of lithium polysulfides (LiPS) and promotes Li2S…
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Taxonomy
TopicsAdvanced Battery Materials and Technologies · Advancements in Battery Materials · Thermal Expansion and Ionic Conductivity
