High-Sensitivity, Low-Hysteresis, Flexible Humidity Sensors Based on Carboxyl-Functionalized Reduced-Graphene Oxide/Ag Nanoclusters
Hongping Liang(South China Normal University), Weiping Gong(Huizhou University), Yue Niu(Great Bay University), Haijuan Mei(Huizhou University), Chen Liu(Huizhou University), Ru Fang(Nanjing Medical University), Lanpeng Guo(Huazhong Agricultural University), Zilun Tang(Huizhou University), Zhenting Zhao(Huizhou University)
Cited by 1
Related Papers
Electrochemical protein biosensors for disease marker detection: progress and opportunities
|Microsystems & Nanoengineering|2024|125
High-Entropy Strategy for Improved Mechanical and Energy Storage Properties in BaTiO<sub>3</sub>–BiFeO<sub>3</sub>-Based Ceramics
|ACS Applied Materials & Interfaces|2024|60
Practical room temperature formaldehyde sensing based on a combination of visible-light activation and dipole modification
|Journal of Materials Chemistry A|2021|43
Synthesis of Pr doped In2O3 nanoparticles and their enhanced ethanol gas-sensing performance
|Ceramics International|2023|36
Assembling Hollow Cactus-Like ZnO Nanorods with Dipole-Modified Graphene Nanosheets for Practical Room-Temperature Formaldehyde Sensing
|ACS Applied Materials & Interfaces|2022|35