机构地区:[1]College of Bioresources Chemical and Materials Engineering,Shaanxi University of Science and Technology,Shaanxi Provincial Key Laboratory of Papermaking Technology and Specialty Paper Development,Key Laboratory of Paper Based Functional Materials of China National Light Industry,National Demonstration Center for Experimental Light Chemistry Engineering Education,Xi’an 710021,China [2]Xinjiang Key Laboratory of Trace Chemicals Sensing,Xinjiang Technical Institute of Physics and Chemistry,Chinese Academy of Sciences,Urumqi 830011,China
出 处:《Advanced Fiber Materials》2024年第3期758-771,共14页先进纤维材料(英文)
基 金:supported by the International Joint Research Center for Biomass Chemistry and Materials,Shaanxi International Science and Technology Cooperation Base(2018GHJD-19);Shaanxi Key Industry Innovation Chain Projects(2020ZDLGY11-03);the National Natural Science Foundation of China(22378247);the Shaanxi Qin Chuangyuan Project of"Scientist+Engineer"team construction(2022KXJ-135):a team of“scientists+engineers”of fibre-based biofilter plates.
摘 要:The green preparation of highly dispersed carbon nanotube(CNT)conductive inks remains a critical challenge in the field of flexible electronics.Herein,a waterborne CNT dispersion approach mediated by carboxylated cellulose nanofibers(C-CNFs)was proposed.CNFs,special biomass materials with excellent nanostructures and abundant active surface groups,are used as green dispersants.During the dispersion process,benefiting from chemical charge and dimensional matching,C-CNF/CNT wicking-driven stable composite structures(CCNTs)were co-assembled via hydrogen bonding,electrostatic stabilization andπ–πstacking between the interfaces,generating controlled orientational structures and promoting stable dispersion and conductivity of CNTs,which were demonstrated via molecular dynamics simulations combined with a variety of physicochemical characterization methods.The dispersion concentration of CNTs in a CCNT slurry can reach 80 wt%,and the obtained CCNT slurry has a low zeta potential(less than−60 mV)and good stability.Due to the film-forming properties of CNFs and in-plane oriented self-assembly of CCNT,the composite self-supporting films were fabricated with high electrical conductivity(67 S cm^(−1))and mechanical performance(tensile strength of 153 MPa).In addition,the resulting biobased CCNT ink is compatible with a variety of printing processes and adaptable to various substrates.Moreover,this ink can be used to construct multifunctional advanced sensors with electrochemical,electrothermal,and deformation/piezoresistive responses,which demonstrate excellent performance in monitoring human health.
关 键 词:Carbon nanotubes(CNTs) Cellulose nanofibers(CNFs) Conductive inks Dispersion PRINTABILITY Multifunctional sensors
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