Recent advances in organic solar cell performance have been mainly driven forward by
combining high-performance p-type donor–acceptor copolymers (eg PM6) and non …

Tuning the open‐circuit voltage (VOC) and fill factor (FF) without sacrificing the short‐circuit
current density is crucial for achieving performance advantages in ternary blend organic …

The electrostatic potential within porous materials critically influences applications like gas
storage, catalysis, sensors and semiconductor technology. Precise control of this potential in …

Low saturation voltages and extremely high intrinsic gain can be achieved in contact‐
controlled thin‐film transistors (TFTs) with staggered device architecture, enabled by the …

Planar aromatic semiconductors are excellent active layer materials for charge transport
(mostly p-type) and light emission in various organic electronic devices. The exciton …

Singlet fission (SF), the photophysical process in which one singlet exciton is transformed
into two triplets, depends inter alia on the coupling of electronic states. Here, we use …

Blending organic molecules to tune their energy levels is currently being investigated as an
approach to engineer the bulk and interfacial optoelectronic properties of organic …

The predictable control of energy levels in coordination polymer is an essential issue in
molecular science. To explore a simple and feasible strategy for tuning the energy levels of …

Constructing a solid solution is an effective strategy for regulating the properties of
composite organic semiconductors. However, there presents significant challenges in …

Heptamethine cyanine dyes (HMCDs) have attracted considerable attention in biological
and energy applications owing to their unique near-infrared (NIR) photophysical properties …