[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"$fi1FSgv-1dYK7tz31ONq0m7w7fyDerqL0ZkPNSmdHUBA":3},{"answer":4,"createTime":5,"id":6,"options":7,"origin":10,"question":17,"related":18,"source":28,"type":69},[],"2025-11-05 19:30:12",229328232,[8,9],"正确","错误",{"count":11,"courseId":12,"courseImg":13,"courseName":14,"workId":15,"workName":16},24,"53e1d2ef4961cca8eea3e23969ad2cb9","https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F03a579384a6dc297c89809b582fcc767.png","默认课程","work_46017970","3.2.2 钠硫电池、液流电池、固态电池","钠硫电池放电时,钠离子从负极迁移到正极",[19,30,39,48,57,66,70,75,80,85],{"answer":20,"createTime":5,"id":21,"options":22,"question":27,"source":28,"type":29},[],229328227,[23,24,25,26],"100-150℃","300-350℃","0-50℃","200-250℃","钠硫电池的工作温度范围为","v1",0,{"answer":31,"createTime":5,"id":32,"options":33,"question":38,"source":28,"type":29},[],229328228,[34,35,36,37],"流动的电解液","电极材料","隔膜","储罐外壳","全钒液流电池充放电过程中,能量主要储存在",{"answer":40,"createTime":5,"id":41,"options":42,"question":47,"source":28,"type":29},[],229328229,[43,44,45,46],"正极材料","能量密度","电解质状态","充电速度","固态电池与传统锂电池的核心区别在于",{"answer":49,"createTime":5,"id":50,"options":51,"question":56,"source":28,"type":29},[],229328230,[52,53,54,55],"石墨","钴酸锂","氧气","硫","锌空气电池的正极材料是",{"answer":58,"createTime":5,"id":59,"options":60,"question":65,"source":28,"type":29},[],229328231,[61,62,63,64],"有机溶液","熔融盐","固体陶瓷","水凝胶","液态金属电池的电解质类型为",{"answer":67,"createTime":5,"id":6,"options":68,"question":17,"source":28,"type":69},[],[8,9],3,{"answer":71,"createTime":5,"id":72,"options":73,"question":74,"source":28,"type":69},[],229328233,[8,9],"固态电池确实能显著降低热失控风险",{"answer":76,"createTime":5,"id":77,"options":78,"question":79,"source":28,"type":69},[],229328234,[8,9],"水系电池使用有机溶剂作为电解液",{"answer":81,"createTime":5,"id":82,"options":83,"question":84,"source":28,"type":69},[],229328235,[8,9],"浓差电池放电依赖离子从低浓度区向高浓度区扩散",{"answer":86,"createTime":5,"id":87,"options":88,"question":89,"source":28,"type":69},[],229328236,[8,9],"锌空气电池的稳定性优异"]