Abstract With the accelerating advancement of distributed sensors and portable electronic devices in the era of big data, harvesting energy from the surrounding environment to power electrical devices has become increasingly attractive. However, most mechanical energy harvesters often require high operating frequencies to function properly. Moreover, for practical applications, the survivability of devices in harsh operating environments is a vital issue which must be addressed. Besides, the single‐stimulus responsiveness limits their further applications in complex external environments. Here, a pressure and moisture dual‐responsive ionic diode consisting of two organohydrogels with opposite charges as an energy harvester is proposed. The ...
Harvesting energy from ubiquitous moisture is attracting growing interest for directly powering elec...
An increase in energy and power densities is needed to match the growing energy storage demands link...
Development of ionic thermoelectric (iTE) materials is of immense interest for efficient heat-to-ele...
Free-standing and film-type moisture-driven energy generators (MEGs) that harness the preferential i...
The recent use of cryoprotectant replacement method for solving the easy drying problem of hydrogels...
The continuous energy-harvesting in moisture environment is attractive for the development of clean ...
Electricity is indispensable in our daily life and batteries are the widely used energy sources for ...
Environment-adaptive power generation can play an important role in next-generation energy conversio...
Ionic hydrogels, a class of intrinsically stretchable and conductive materials, are widely used in s...
Humidity-based power generation that converts internal energy of water molecules into electricity is...
Ubiquitous vapor and low-grade heat are widely available in nature and provide abundant, clean sourc...
Climate Change is believed to be the greatest global challenge and on its forefront is the topic of ...
Hydrogels with high electrical conductivity and mechanical stretchability are promising materials fo...
Circadian humidity fluctuation is an important factor that affects human life all over the world. He...
Water dissociation, in general, requires external stimuli such as light energy or electricity. Here,...
Harvesting energy from ubiquitous moisture is attracting growing interest for directly powering elec...
An increase in energy and power densities is needed to match the growing energy storage demands link...
Development of ionic thermoelectric (iTE) materials is of immense interest for efficient heat-to-ele...
Free-standing and film-type moisture-driven energy generators (MEGs) that harness the preferential i...
The recent use of cryoprotectant replacement method for solving the easy drying problem of hydrogels...
The continuous energy-harvesting in moisture environment is attractive for the development of clean ...
Electricity is indispensable in our daily life and batteries are the widely used energy sources for ...
Environment-adaptive power generation can play an important role in next-generation energy conversio...
Ionic hydrogels, a class of intrinsically stretchable and conductive materials, are widely used in s...
Humidity-based power generation that converts internal energy of water molecules into electricity is...
Ubiquitous vapor and low-grade heat are widely available in nature and provide abundant, clean sourc...
Climate Change is believed to be the greatest global challenge and on its forefront is the topic of ...
Hydrogels with high electrical conductivity and mechanical stretchability are promising materials fo...
Circadian humidity fluctuation is an important factor that affects human life all over the world. He...
Water dissociation, in general, requires external stimuli such as light energy or electricity. Here,...
Harvesting energy from ubiquitous moisture is attracting growing interest for directly powering elec...
An increase in energy and power densities is needed to match the growing energy storage demands link...
Development of ionic thermoelectric (iTE) materials is of immense interest for efficient heat-to-ele...