However, the electrochemical oxidation of hydrazine at glassy carbon electrode or bare metal is restricted by the high overpotential and sluggish kinetics, which generates a poor detection performance. [ 11 ] Although, lots of materials (such as zinc oxide nanonails, [ 12 ] ZnO nanorods, [ 13 ] polypyrrole nanoplates, [ 14 ] etc.) have been used in electrochemical sensors, exploring an effi cient and sensitive electrode material is of vital importance.In the past few decades, carbon-based composites, such as epoxy/carbon fi ber, [ 15 ] MnO 2 /graphene, [ 16 ] graphene oxide (GO)/ Fe, [ 17 ] MHTiO 2 @C-Au, [ 18 ] and Ni(OH) 2 /3D graphene, [ 19 ] have attracted tremendous interests owning to their unique physical and chemical properties. Specially, carbon cloth (CC) composites, consisting of reinforcing carbon fi bers and functional nanomaterials, are widely used in microwave absorption, [ 20 ] catalysis, [ 21,22 ] and supercapacitors, [ 23,24 ] due to its excellent mechanical strength, good corrosion resistance, high electrical conductivity, excellent fl exibility, and low-cost. However, to our knowledge, the application of carbon cloth in preparing freestanding electrode materials for electrochemical detection devices for hydrazine detection has never been reported.In this work, porous Co 3 O 4 nanosheets, vertically deposited onto the surface of graphene oxide modifi ed carbon cloth, were synthesized through a facile diffusion method at room temperature without the existence of any auxiliary reagents following a thermal annealing process (See Figure 1 ). The GO nanosheets on the surface of CC make the CC present hydrophilic and provide amounts of reactive oxygen functional groups. [ 25 ] Furthermore, the GO reduced at high temperature can greatly enhance the conductivity of CC. Compared with the previously reported method of dealing with nitric acid, [ 26 ] modifi ed CC with GO was simple and environmental friendliness. More importantly, the constructed Co 3 O 4 /reduced graphene oxide (rGO)/CC electrode demonstrates high sensitivity, low limit of detection (LOD), and excellent selectivity for hydrazine detection.
Results and Discussion
Structure and Morphology
