Add to ORKGThe optoelectronic performance of wide-bandgap semiconductors often cannot compete with that of their defect-tolerant small-bandgap counterpart. Here, the authors outline three main challenges to overcome for mitigating the impact of defects in wide-bandgap semiconductors
Wide-bandgap ((Formula presented.) 1.7 eV) perovskite solar cells (PSCs) are plagued by relatively l...
Recently, we and others have proposed screening criteria for "defect-tolerant" photovoltaic (PV) abs...
While group IV or III-V based device technologies have reached their technical limitations (e.g., li...
The optoelectronic performance of wide-bandgap semiconductors often cannot compete with that of thei...
Control of electron and hole concentrations in semiconductors is a longstanding challenge. Now, by m...
Fundamental limitations of wide-bandgap semiconductor devices are caused by systematic trends of the...
The role of defects in materials is one of the long-standingissues in solid-state chemistry and phys...
The development of semiconductor electronics is reviewed briefly, beginning with the development of ...
Semiconductors have unique electrical properties such as variable electrical conductivity through do...
Control of defect processes in photovoltaic materials is essential for realising high - efficiency s...
The role of defects in materials is one of the long-standing issues in solid-state chemistry and phy...
In several photovoltaic (PV) technologies, the presence of electronic defects within the semiconduct...
Wide band gap semiconductors typically exhibit a band gap of more than 2eV and are technologically i...
The performance of photodetectors fabricated from emerging semiconductors such as perovskites, quant...
Efficient wide-bandgap perovskite solar cells (PSCs) enable high-efficiency tandem photovoltaics whe...
Wide-bandgap ((Formula presented.) 1.7 eV) perovskite solar cells (PSCs) are plagued by relatively l...
Recently, we and others have proposed screening criteria for "defect-tolerant" photovoltaic (PV) abs...
While group IV or III-V based device technologies have reached their technical limitations (e.g., li...
The optoelectronic performance of wide-bandgap semiconductors often cannot compete with that of thei...
Control of electron and hole concentrations in semiconductors is a longstanding challenge. Now, by m...
Fundamental limitations of wide-bandgap semiconductor devices are caused by systematic trends of the...
The role of defects in materials is one of the long-standingissues in solid-state chemistry and phys...
The development of semiconductor electronics is reviewed briefly, beginning with the development of ...
Semiconductors have unique electrical properties such as variable electrical conductivity through do...
Control of defect processes in photovoltaic materials is essential for realising high - efficiency s...
The role of defects in materials is one of the long-standing issues in solid-state chemistry and phy...
In several photovoltaic (PV) technologies, the presence of electronic defects within the semiconduct...
Wide band gap semiconductors typically exhibit a band gap of more than 2eV and are technologically i...
The performance of photodetectors fabricated from emerging semiconductors such as perovskites, quant...
Efficient wide-bandgap perovskite solar cells (PSCs) enable high-efficiency tandem photovoltaics whe...
Wide-bandgap ((Formula presented.) 1.7 eV) perovskite solar cells (PSCs) are plagued by relatively l...
Recently, we and others have proposed screening criteria for "defect-tolerant" photovoltaic (PV) abs...
While group IV or III-V based device technologies have reached their technical limitations (e.g., li...