For nearly eight decades, the so-called Shockley diode equation has explained how current flows through solar cells; the electrical current that powers up your home or charges the battery bank.

But they could enable advanced solar cells, thin and intense OLED (organic ... The papers are titled, "The Ideal Diode Equation for Organic Heterojunctions. I. Derivation and Application," and ...

For almost 80 years, the Shockley diode equation has described current flow through solar cells, which power homes and charge battery banks. However, a recent study cast doubt on this conventional ...

Therefore, the ideality factor of a bulk-heterojunction solar cell can deviate ... current in organic MIM diodes has been analyzed using the classical Shockley diode equation, 3 given as follows ...

When you get down to it, solar cells aren’t much different from the diodes and transistors in your parts drawers or inside your beloved electronics. They’re both made of silicon or some other ...

“Demonstration of resonant tunneling effects in metal-double-insulator-metal (MI 2 M) diodes,” Amina Belkadi, Ayendra Weerakkody, & Garret Moddel, Nature ...

could be applied to cells made from other so-called polymorphic material systems, as well as to other types of optoelectronic devices such as light-emitting diodes and photodetectors. Modern solar ...

But they could enable advanced solar cells, thin and intense OLED (organic ... The papers are titled, "The Ideal Diode Equation for Organic Heterojunctions. I. Derivation and Application," and ...