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[11]n型SiC@Fe_3O_4纳米复合吸波剂的电磁吸收特性研究. ( ):
[12]High capacity and stability induced by sandwich-like structure and metal-O configuration for CoNi2S4/Ti3C2Tx heterostructure electrode.439(-):
[13]Interface bonding engineering for constructing a battery-type supercapacitor cathode with ultralong cycle life and high rate capability.49(5):
[14]Lithiation-induced controllable vacancy engineering for developing highly active Ni3Se2 as a high-rate and large-capacity battery-type cathode in hybrid supercapacitors.78(-):
[15]具有O–Fe–Se配位键的半共格异质界面工程提高电池型超级电容器阳极的容量和倍率(英文).v.66(05):
[16]Random laser emission from dye-doped polymer films enhanced by SiC nanowires.56(24):
[17]Vacancy-engineered MoO3 and Na+-preinserted MnO2 in situ grown N-doped graphene nanotubes as electrode materials for high-performance asymmetric supercapacitors.9(36):
[18]Interfacial Engineering and a Low-Crystalline Strategy for HighPerformance Supercapacitor Negative Electrodes: Fe2P2O7 Nanoplates Anchored on N/P Co-doped Graphene Nanotubes.14(2):
[19]Intercalation-deintercalation design in MXenes for high-performance supercapacitors.15(4):
[20]The Semicoherent Interface and Vacancy Engineering for Constructing Ni(Co)Se-2@Co(Ni)Se-2 Heterojunction as Ultrahigh-Rate Battery-Type Supercapacitor Cathode.32(33):
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