Add to ORKGABSTRACT: We demonstrate a new type of integrated nano-generator based on arrays of vertically aligned piezoelectric ZnO nanowires. The peak open-circuit voltage and short-circuit current reach a record high level of 58 V and 134 μA, respectively, with a maximum power density of 0.78 W/cm3. The electric output was directly applied to a sciatic nerve of a frog, inducing innervation of the nerve. Vibrant contraction of the frog’s gastrocnemius muscle is observed as a result of the instantaneous electric input from the nanogenerator
Mechanical energy sources are abundant in our living environment, such as body motion, vehicle trans...
AbstractTwo new fields are introduced to the sensor community: strained induced piezotronics for sma...
Recently, an approach for converting nanoscale mechanical energy into electrical energy has been sug...
We demonstrate a new type of integrated nanogenerator based on arrays of vertically aligned piezoele...
ABSTRACT: On the basis of a vertically aligned ultralong Pb(Zr0.52Ti0.48)O3 (PZT) nanowire array fab...
A living species has numerous sources of mechanical energy, such as muscle stretching, arm/leg swing...
Nanogenerators are interesting for biomedical applications, with a great potential for electrical st...
This paper presents the experimental observation of piezoelectric generation from a single ZnO wire/...
We have converted nanoscale mechanical energy into electrical energy by means of piezoelectric zinc ...
Energy crisis and internet of things have attracted long term interests due to rapid development of ...
International audienceThis paper reports advancement in bringing flexible piezoelectric nanogenerato...
ABSTRACT We present a simple, cost-effective, robust, and scalable approach for fabricating a nanoge...
ABSTRACT We report here a simple and effective approach, named scalable sweeping-printing-method, fo...
Energy from sources such as body movement or blood flow is con-verted to electrical energy by deform...
Converting mechanical energy into electricity could have applications in sensing, medical science, d...
Mechanical energy sources are abundant in our living environment, such as body motion, vehicle trans...
AbstractTwo new fields are introduced to the sensor community: strained induced piezotronics for sma...
Recently, an approach for converting nanoscale mechanical energy into electrical energy has been sug...
We demonstrate a new type of integrated nanogenerator based on arrays of vertically aligned piezoele...
ABSTRACT: On the basis of a vertically aligned ultralong Pb(Zr0.52Ti0.48)O3 (PZT) nanowire array fab...
A living species has numerous sources of mechanical energy, such as muscle stretching, arm/leg swing...
Nanogenerators are interesting for biomedical applications, with a great potential for electrical st...
This paper presents the experimental observation of piezoelectric generation from a single ZnO wire/...
We have converted nanoscale mechanical energy into electrical energy by means of piezoelectric zinc ...
Energy crisis and internet of things have attracted long term interests due to rapid development of ...
International audienceThis paper reports advancement in bringing flexible piezoelectric nanogenerato...
ABSTRACT We present a simple, cost-effective, robust, and scalable approach for fabricating a nanoge...
ABSTRACT We report here a simple and effective approach, named scalable sweeping-printing-method, fo...
Energy from sources such as body movement or blood flow is con-verted to electrical energy by deform...
Converting mechanical energy into electricity could have applications in sensing, medical science, d...
Mechanical energy sources are abundant in our living environment, such as body motion, vehicle trans...
AbstractTwo new fields are introduced to the sensor community: strained induced piezotronics for sma...
Recently, an approach for converting nanoscale mechanical energy into electrical energy has been sug...