Recent advances in carbon nanotube‐based energy harvesting technologies
There has been enormous interest in technologies that generate electricity from ambient
energy such as solar, thermal, and mechanical energy, due to their potential for providing …
energy such as solar, thermal, and mechanical energy, due to their potential for providing …
Strategies for enhancing low-frequency performances of triboelectric, electrochemical, piezoelectric and dielectric elastomer energy harvesting: recent progress and …
Mechanical energy harvesting transforms various forms of mechanical energy, including
ocean waves, wind, and human motion, into electrical energy, providing a viable solution to …
ocean waves, wind, and human motion, into electrical energy, providing a viable solution to …
In-situ grown metal-organic framework derived CoS-MXene pseudocapacitive asymmetric supercapacitors
Since 2D MXene offers high conductivity and high redox-active sites making it an excellent
candidate for supercapacitors (SCs). On the other hand, metal-organic frameworks (MOF) …
candidate for supercapacitors (SCs). On the other hand, metal-organic frameworks (MOF) …
Enhanced energy harvester performance by a tension annealed carbon nanotube yarn at extreme temperatures
Carbon nanotube (CNT) yarns generate electrical energy when they were stretched in an
electrolyte, and they have been exploited for diverse applications such as self-powered …
electrolyte, and they have been exploited for diverse applications such as self-powered …
In-plane thermal conductivity of multi-walled carbon nanotube yarns under mechanical loading
We present a computational and experimental study of the in-plane heat transfer behavior of
a coiled multi-walled carbon nanotube (MWCNT) yarn. The surface temperature of the …
a coiled multi-walled carbon nanotube (MWCNT) yarn. The surface temperature of the …
Nonlinear multiscale model for interstitial structures of densely ordered multi-walled carbon nanotube bundles
The microscopic structural changes upon mechanical deformation of coiled multi-walled
carbon nanotube (MWCNT) yarns were investigated through a multiscale constitutive model …
carbon nanotube (MWCNT) yarns were investigated through a multiscale constitutive model …
Understanding Piezoionic Effects in Chemo–Mechanical Energy Harvesting by Carbon Nanotube Yarn Twists
Strategies for converting mechanical energy into electrical energy hold significant
importance in diverse battery‐free and battery‐supported applications. Recent studies have …
importance in diverse battery‐free and battery‐supported applications. Recent studies have …
A spatial upscaling method for describing the three-body potential of a diamond lattice structure
A spatial upscaling method that efficiently describes the three-body potential of diamond
lattice structures is proposed in this paper. The spatial scale of the bulk single-crystal …
lattice structures is proposed in this paper. The spatial scale of the bulk single-crystal …
Tying carbon nanotubes using the double helix structure of a trefoil knot
The entanglement between heterogeneous materials at the nanometer scale is an
interesting phenomenon by which the structure and properties of materials become …
interesting phenomenon by which the structure and properties of materials become …
New paradigms of water‐enabled electrical energy generation
Nanotechnology‐inspired small‐sized water‐enabled electricity generation (WEG) has
sparked widespread research interest, especially when applied as an electricity source for …
sparked widespread research interest, especially when applied as an electricity source for …