Organic solar cells (OSCs) have gained a rapid development in the past two decades and
the power conversion efficiency (PCE) of single-junction OSC has recently approached …

Optically active molecular materials, such as organic conjugated polymers and biological
systems, are characterized by strong coupling between electronic and vibrational degrees of …

Molecular do** has recently been shown to improve the operating characteristics of
organic photovoltaics (OPVs). Here, we prepare neutral Diquat (DQ) and use it as n-dopant …

The field of organic electronics thrives on the hope of enabling low‐cost, solution‐processed
electronic devices with mechanical, optoelectronic, and chemical properties not available …

Molecular do** has become a valuable technique for enhancing the efficiency of high-
performance organic photovoltaic systems (OPVs). However, the number of known dopant …

The standard picture of photovoltaic conversion in all-organic bulk heterojunction solar cells
predicts that the initial excitation dissociates at the donor/acceptor interface after …

Abstract Layer‐by‐layer (LbL) deposition of active layers in organic solar cells (OSCs) offers
immense potential for optimizing performance through precise tailoring of each layer …

Tail states in organic semiconductors have a significant influence on device performances
by acting as traps in charge transport. We present a study of the controlled passivation of …

Addition of low concentrations (< 1: 100, dopant: donor) of a fluorinated p-type dopant, F4-
TCNQ leads to a considerable enhancement of the photocurrent in PCDTBT: PC70 BM bulk …

Do** serves as a vital strategy for tuning electronic and optoelectronic properties of
semiconductors. Compared to organic semiconductors, the understanding and optimization …