Add to ORKGSolar energy is abundant, clean, and renewable, making it an ideal energy source. Solar cells are a good option to harvest this energy. However, it is difficult to balance the cost and efficiency of traditional thin-film solar cells, whereas nanowires (NW) are far superior in making high-efficiency low-cost solar cells. Therefore, the NW solar cell has attracted great attention in recent years and is developing rapidly. Here, we review the great advantages, recent breakthroughs, novel designs, and remaining challenges of NW solar cells. Special attention is given to (but not limited to) the popular semiconductor NWs for solar cells, in particular, Si, GaAs(P), and InP
In order to satisfy the growing energy needs of our planet’s population, and at the same time mitiga...
To mitigate dangerous climate change, a transition to a new and sustainable energy system is needed....
The diffusion of photovoltaic systems is deterred by the struggle in combining high efficiency and l...
Nanowires (NWs) are 1D nanostructures with unique and wonderful optical and electrical properties. D...
Solar energy harvesting for electricity production is regarded as a fully credible future energy sou...
The solar power received by Earth far exceeds global power demands. Despite this, infrastructure sho...
Over the past decade extensive studies of single semiconductor nanowire and nanowire array photovolt...
Photovoltaics (PV) technology is currently enjoying substantial growth and investment, owing to worl...
Semiconductor nanowires are a class of materials recently gaining increasing interest for solar cell...
Photovoltaics (PV) technology is currently enjoying substantial growth and investment, owing to worl...
III–V semiconductor nanowires have gained intensive attention for solar cell applications due to the...
Photovoltaics (PV) technology is currently enjoying substantial growth and investment, owing to worl...
We present an all-oxide solar cell fabricated from vertically oriented zinc oxide nanowires and cupr...
Here we demonstrate a more effective use of III–V photoconversion material to achieve an ultrahigh p...
In order to satisfy the growing energy needs of our planet’s population, and at the same time mitiga...
In order to satisfy the growing energy needs of our planet’s population, and at the same time mitiga...
To mitigate dangerous climate change, a transition to a new and sustainable energy system is needed....
The diffusion of photovoltaic systems is deterred by the struggle in combining high efficiency and l...
Nanowires (NWs) are 1D nanostructures with unique and wonderful optical and electrical properties. D...
Solar energy harvesting for electricity production is regarded as a fully credible future energy sou...
The solar power received by Earth far exceeds global power demands. Despite this, infrastructure sho...
Over the past decade extensive studies of single semiconductor nanowire and nanowire array photovolt...
Photovoltaics (PV) technology is currently enjoying substantial growth and investment, owing to worl...
Semiconductor nanowires are a class of materials recently gaining increasing interest for solar cell...
Photovoltaics (PV) technology is currently enjoying substantial growth and investment, owing to worl...
III–V semiconductor nanowires have gained intensive attention for solar cell applications due to the...
Photovoltaics (PV) technology is currently enjoying substantial growth and investment, owing to worl...
We present an all-oxide solar cell fabricated from vertically oriented zinc oxide nanowires and cupr...
Here we demonstrate a more effective use of III–V photoconversion material to achieve an ultrahigh p...
In order to satisfy the growing energy needs of our planet’s population, and at the same time mitiga...
In order to satisfy the growing energy needs of our planet’s population, and at the same time mitiga...
To mitigate dangerous climate change, a transition to a new and sustainable energy system is needed....
The diffusion of photovoltaic systems is deterred by the struggle in combining high efficiency and l...