Lithium-sulfur battery(LSB)represents an important candidate to be used in energy storage applications,due to its high specific capacities.Sulfurized-polyacrylonitrile(SPAN)is a candidate as a host material in LSB to ...Lithium-sulfur battery(LSB)represents an important candidate to be used in energy storage applications,due to its high specific capacities.Sulfurized-polyacrylonitrile(SPAN)is a candidate as a host material in LSB to replace graphite,due to its ability to chemisorb polysulfides(PSs).The sulfur chains attached to the polymer can reversibly form Li2S,and SPAN indicates to have a good cyclability and better performance than graphite,thus,SPAN acts partially as an active and also as a host material.In this study,we investigated the capacity of the solvent or the SPAN to lose a hydrogen atom from the backbone,to predict possible anodic reactions between solvent and host material.The simulation suggests that the photophilic salts may preferentially react with the solvent,and possibly building a cathode electrolyte interphase(CEI).We observed that an undercoordinated carbon(C_(uc))can be thermodynamically created,due to lithiation.The Cuccan react with the solvent on the polymer backbone through different mechanisms,however,the simulations indicated that the reaction should be affected by the interaction between the solvent and C_(uc),according to SPAN’s configuration.Moreover,C_(uc)reacts with long sulfur chains attached to SPAN,capturing sulfur and forming a C-S bond.A sulfur chain from one SPAN can connect to another polymer backbone,however,this process is affected by lithiation and vice-versa.Therefore,this work also investigates the formation of interconnected SPAN structures and the multiple C_(uc)effects.展开更多
基金Support from the Deutsche Forschungsgemeinschaft(DFG)through Project ID 390874152(POLi S Cluster of Excellence)the Schwerpunktprogramm(priority program)SPP-2248(polymer-based batteries)+1 种基金supported by the state of Baden-Württemberg through the HPC project 511the Deutsche Forschungsgemeinschaft(DFG)through Grant Number INST40/467-1 FUGG。
文摘Lithium-sulfur battery(LSB)represents an important candidate to be used in energy storage applications,due to its high specific capacities.Sulfurized-polyacrylonitrile(SPAN)is a candidate as a host material in LSB to replace graphite,due to its ability to chemisorb polysulfides(PSs).The sulfur chains attached to the polymer can reversibly form Li2S,and SPAN indicates to have a good cyclability and better performance than graphite,thus,SPAN acts partially as an active and also as a host material.In this study,we investigated the capacity of the solvent or the SPAN to lose a hydrogen atom from the backbone,to predict possible anodic reactions between solvent and host material.The simulation suggests that the photophilic salts may preferentially react with the solvent,and possibly building a cathode electrolyte interphase(CEI).We observed that an undercoordinated carbon(C_(uc))can be thermodynamically created,due to lithiation.The Cuccan react with the solvent on the polymer backbone through different mechanisms,however,the simulations indicated that the reaction should be affected by the interaction between the solvent and C_(uc),according to SPAN’s configuration.Moreover,C_(uc)reacts with long sulfur chains attached to SPAN,capturing sulfur and forming a C-S bond.A sulfur chain from one SPAN can connect to another polymer backbone,however,this process is affected by lithiation and vice-versa.Therefore,this work also investigates the formation of interconnected SPAN structures and the multiple C_(uc)effects.
