The overall amount of energy utilized by people and society is growing along with the global population and ongoing social and economic development. As a result, the
In the field of photoelectric detection and imaging, perovskite materials show unique and excellent application potential of photoelectric detection and imaging. This paper overviews the recent advances of photoelectric
The physical separation of light perception, information storage, and processing functions leads to severe consumption of energy, space, and time. In contrast, the photoelectric synapse integrates light sensing and
The aim of the paper is to improve the energy management of a photoelectric system with a storage battery for the needs of a local object with the planned gener
An all-solid-state and integrated device in which photoelectric conversion and energy storage are simultaneously realized has been developed from free-standing and aligned carbon nanotube
With the growing demand for intelligent perception systems in the IoT and big data era, multimodal sensing technologies face challenges including complex device
Despite numerous advantages of Si-based optoelectronics, alternative material systems with strong light-matter interaction are highly desired to enable next-generation
The depletion of fossil fuels and the soaring global energy demand have compelled humanity to explore renewable energy sources [1], [2], [3]. Solar energy, known as
A promising approach to overcome this limitation is the integration of energy conversion and storage devices, thereby enabling semi-permanent usage of portable
A compact, time- and energy-efficient computing architecture — based on ferroelectric-defined reconfigurable two-dimensional photodiode arrays — is shown to be
Self-powered electrochemical sensor (SPES), an analytical sensing device without external power supply, is integrated with the dual functions of power supply and
Porous organic framework materials (POFs) including MOFs, COFs, CHFs, CTFs, and HOFs, characterized by diverse synthesis methods, flexible design, adjustable band
In this study, we propose an all-day solar power generator to achieve highly efficient and continuous electricity generation by harnessing the synergistic effects of
Photoresponsive CoNi-MOF@CoO2@WSe2 hybrid: A dual-function platform for high-performance photo-hybrid supercapacitors and zearalenone sensing
Manufacturing, design and testing of photoelectric conversion and energy storage materials, including various batteries, supercapacitors, various films and LEDs.
A wide wind speed sensing range is achieved from 2.9 m/s to 24.0 m/s, within which the current frequency of ASTS shows a good proportional relationship with wind speed.
This study highlights the great potential of the PD-RRAM optoelectronic array as an energy-efficient in-sensor computing primitive for future IoT applications.
The potential to harness renewable energy through this device positions it as a valuable contributor to sustainable energy sources, aligning with the global push for clean and
A novel integrated energy module is presented, which demonstrates a high photoelectric storage efficiency (PSE). This module comprises a perovskite solar cell (PSC) as
Porous organic framework materials (POFs) including MOFs, COFs, CHFs, CTFs, and HOFs, characterized by diverse synthesis methods, flexible design, adjustable band
Therefore, developing a photoelectric sensing system that possesses high energy conversion efficiency, wide-spectrum absorption capacity, and significant heat recovery
The ability of a photoelectric control to detect an object at a given distance is measured in units of "excess gain." Excess gain is a measure of energy available between the
Compelling aspects of fiber- and textile-based flexible electrodes are reviewed in detail from the point of view of fabrication, properties, and devices performance. The advances
Plasmonic excitation in metals has received great attention for light localization and control of light-matter interactions at the nanoscale with a plethora of applications in absorption enhancement, surface
Enhanced photoelectrochemistry for energy conversion, environmental remediation, detection, and sensing through single-atom catalysts modified photoelectrodes: a
Learn about photoelectric sensors, how they work, and their various applications. Explore different types, including through-beam, retro-reflective, and diffuse
All results show that Sr 0.75 Ba 0.25 Nb 2 O 6 GCs as a new multifunctional photoelectric material, can be potentially applied to optical temperature sensing, transparent
Moreover, the multi-elemental compound two-dimensional nano-materials exhibits excellent electronic response and high specific surface areas which reveals their improved
Potential topics include, but are not limited to, laser measurement and sensing, micro- and nano-photoelectric measurement, simultaneous measurement of multiple parameters, structured light
Potential topics include, but are not limited to, laser measurement and sensing, micro- and nano-photoelectric measurement, simultaneous measurement of multiple
The effective use of such an intermittent energy source relies on development of affordable, inexhaustible and clean solar energy conversion and storage technologies. Here, we design a novel solar-driven
Photo-thermal conversion phase-change composite energy storage materials (PTCPCESMs) are widely used in various industries because of their high therm
Potential topics include, but are not limited to, laser measurement and sensing, micro- and nano-photoelectric measurement, simultaneous measurement of multiple
Therefore, to self-power magnetic and UV response sensing in forest WSN detection systems, a closed-loop effect scheme is proposed, where, the thermoelectric and
Solar cells serve as energy harvesters, and lithium (Li) secondary batteries or capacitors serve as energy stores in integrated energy modules for self-charging. Within these integrated energy modules, the photoelectric storage efficiency (PSE) is a crucial property for continuous power supply to electronic devices.
The integrated photoelectric battery serves as a compact and energy-efficient form for direct conversion and storage of solar energy compared to the traditional isolated PV-battery systems. However, combining efficient light harvesting and electrochemical energy storage into a single material is a great challenge.
Photoelectric storage efficiency of PSC-LSB energy integrated module was 14.6 %. The PSC-LSB energy integrated module achieved an 87 % capacity retention after 200 cycles. As portable electronic devices typically rely on rechargeable batteries, it inherently limits their operational time.
A promising approach to overcome this limitation is the integration of energy conversion and storage devices, thereby enabling semi-permanent usage of portable electronics. A novel integrated energy module is presented, which demonstrates a high photoelectric storage efficiency (PSE).
The PSE of the integrated PSC-LSB energy module reached an impressive 14.6 %, surpassing any reported integrated energy devices. The PSC-LSB energy module exhibited an 87 % retention in discharge capacity, maintaining stable performance after 200 cycles.
In PFC-based SPES, the photoelectric conversion efficiency is mostly determined by the light absorption, photogenerated charge separation, photogenerated charge migration, photogenerated charge recombination and electrocatalytic activity of photoactive semiconductor materials .
