Designing lightweight nanostructured aerogels for high‐performance electromagnetic interference (EMI) shielding is crucial yet challenging. Ultrathin cellulose nanofibrils (CNFs) are employed for assisting in building ultralow‐density, robust, and highly flexible transition metal carbides and nitrides (MXenes) aerogels with oriented biomimetic cell walls. A significant influence of the angles between oriented cell walls and the incident EM wave electric field direction on the EMI shielding performance is revealed, providing an intriguing microstructure design strategy. MXene “bricks” bonded by CNF “mortars” of the nacre‐like cell walls induce high mechanical strength, electrical conductivity, and interfacial polarization, yielding the resul...
Ultralight and highly elastic reduced graphene oxide (RGO)/lignin-derived carbon (LDC) composite aer...
With the advent of newer technologies in the electronic and telecommunication sectors, the extent of...
Ultralight and highly elastic reduced graphene oxide (RGO)/lignin-derived carbon (LDC) composite aer...
Designing lightweight nanostructured aerogels for high-performance electromagnetic interference (EMI...
Designing lightweight nanostructured aerogels for high-performance electromagnetic interference (EMI...
Lightweight nanostructured aerogels have attracted more and more attention for addressing emergency ...
Ultralight and mechanically robust materials with high-efficiency electromagnetic interference (EMI)...
MXenes, a large family of titanium carbides and nitrides, have emerged as potential electromagnetic ...
Ambient-pressure-dried (APD) preparation of transition metal carbide/nitrides (MXene) aerogels is hi...
Transition metal carbides and nitrides (MXenes) have shown great potential for constructing thin, hi...
Ambient-pressure-dried (APD) preparation of transition metal carbide/nitrides (MXene) aerogels is hi...
International audienceElectromagnetic (EM) pollution is ubiquitous and has soared to a great extent ...
In this work, 3D highly electrically conductive cellulose nanofibers (CNF)/Ti3C2Tx MXene aerogels (C...
Electromagnetic wave pollution has attracted extensive attention because of its ability to affect th...
Exploring electromagnetic interference (EMI) shielding materials with ultra-efficient EMI shielding ...
Ultralight and highly elastic reduced graphene oxide (RGO)/lignin-derived carbon (LDC) composite aer...
With the advent of newer technologies in the electronic and telecommunication sectors, the extent of...
Ultralight and highly elastic reduced graphene oxide (RGO)/lignin-derived carbon (LDC) composite aer...
Designing lightweight nanostructured aerogels for high-performance electromagnetic interference (EMI...
Designing lightweight nanostructured aerogels for high-performance electromagnetic interference (EMI...
Lightweight nanostructured aerogels have attracted more and more attention for addressing emergency ...
Ultralight and mechanically robust materials with high-efficiency electromagnetic interference (EMI)...
MXenes, a large family of titanium carbides and nitrides, have emerged as potential electromagnetic ...
Ambient-pressure-dried (APD) preparation of transition metal carbide/nitrides (MXene) aerogels is hi...
Transition metal carbides and nitrides (MXenes) have shown great potential for constructing thin, hi...
Ambient-pressure-dried (APD) preparation of transition metal carbide/nitrides (MXene) aerogels is hi...
International audienceElectromagnetic (EM) pollution is ubiquitous and has soared to a great extent ...
In this work, 3D highly electrically conductive cellulose nanofibers (CNF)/Ti3C2Tx MXene aerogels (C...
Electromagnetic wave pollution has attracted extensive attention because of its ability to affect th...
Exploring electromagnetic interference (EMI) shielding materials with ultra-efficient EMI shielding ...
Ultralight and highly elastic reduced graphene oxide (RGO)/lignin-derived carbon (LDC) composite aer...
With the advent of newer technologies in the electronic and telecommunication sectors, the extent of...
Ultralight and highly elastic reduced graphene oxide (RGO)/lignin-derived carbon (LDC) composite aer...