Ti 3C 2T xMXenes modified with in situgrown carbon nanotubes (CNTs) are fabricated viaa simple catalytic chemical vapor deposition (CVD) process.
Ti 3C 2T xMXenes modified with in situgrown carbon nanotubes (CNTs) are fabricated viaa simple catalytic chemical vapor deposition (CVD) process. The as-prepared Ti 3C 2T x/CNT nanocomposites show that one-dimensional (1D) carbon nanotubes are uniformly distributed in the interlayers of two-dimensional (2D) Ti 3C 2T xMXene flakes. Compared with the pristine Ti 3C 2T xMXenes, the hierarchical sandwich microstructure makes a contribution to the excellent electromagnetic wave absorption performance in the frequency range of 2–18 GHz, including higher absorption intensity (the minimum reflection coefficient reaches −52.9 dB, ∼99.999% absorption), broader effective absorption bandwidth (4.46 GHz), lower filler loading (35 wt%) and thinner thickness (only 1.55 mm). In addition, with the adjustment of thickness from 1.55 to 5 mm, the effective absorption bandwidth can reach up to 14.54 GHz (3.46–18 GHz). Different absorption mechanisms mainly based on polarization behaviors and conductivity loss are discussed. This work not only proposes the design of a novel electromagnetic wave absorber, but also provides an effective route for extending further the applications of 2D MXene materials in the field of electromagnetic wave absorption.