Judicious Heteroatom Do** Produces High‐Performance Deep‐Blue/Near‐UV Multiresonant Thermally Activated Delayed Fluorescence OLEDs
Two multiresonant thermally activated delayed fluorescence (MR‐TADF) emitters are
presented and it is shown how further borylation of a deep‐blue MR‐TADF emitter …
presented and it is shown how further borylation of a deep‐blue MR‐TADF emitter …
Shedding light on thermally-activated delayed fluorescence
Thermally activated delayed fluorescence (TADF) is a hot research topic in view of its
impressive applications in a wide variety of fields from organic LEDs to photodynamic …
impressive applications in a wide variety of fields from organic LEDs to photodynamic …
Thermally activated delayed fluorescence: polarity, rigidity, and disorder in condensed phases
We present a detailed and comprehensive picture of the photophysics of thermally activated
delayed fluorescence (TADF). The approach relies on a few-state model, parametrized ab …
delayed fluorescence (TADF). The approach relies on a few-state model, parametrized ab …
Engineering singlet and triplet excitons of TADF emitters by different host‐guest interactions
Understanding the host‐guest interactions for thermally activated delayed fluorescence
(TADF) emitters is critical because the interactions between the host matrices and TADF …
(TADF) emitters is critical because the interactions between the host matrices and TADF …
Solid state solvation: a fresh view
The design of efficient organic electronic devices, including OLEDs, OPVs, luminescent
solar concentrators, etc., relies on the optimization of relevant materials, often constituted by …
solar concentrators, etc., relies on the optimization of relevant materials, often constituted by …
Thermally Controllable Tuning of Emission Properties of Phenoxazine‐Substituted Acridones as One Step Forward to Efficient Organic Light‐Emitting Diodes Based …
The overwhelming majority of efficient organic light‐emitting diodes (OLEDs) are based on
amorphous emitting layers. The devices with crystalline emitters usually show significantly …
amorphous emitting layers. The devices with crystalline emitters usually show significantly …
Exciplex, Not Heavy-Atom Effect, Controls the Triplet Dynamics of a Series of Sulfur-Containing Thermally Activated Delayed Fluorescence Molecules
The efficiency of thermally activated delayed fluorescence (TADF) in organic materials relies
on rapid intersystem crossing rates and fast conversion of triplet (T) excitons into a singlet …
on rapid intersystem crossing rates and fast conversion of triplet (T) excitons into a singlet …
A Multi‐Functional New Acceptor for Ultra‐Broad Multiple Emission, Long‐Persistence Thermally Activated Delayed Fluorescence and Room Temperature …
Aiming to design new efficient organic triplet emitters, here a new electron‐accepting moiety
11, 13‐dihydro‐12H‐dibenzo [a, c] imidazo [4, 5‐i] phenazin‐12‐one (BIPO) are reported …
11, 13‐dihydro‐12H‐dibenzo [a, c] imidazo [4, 5‐i] phenazin‐12‐one (BIPO) are reported …
3, 5-Dicyanopyridine motifs for electron-transporting semiconductors: from design and synthesis to efficient organic light-emitting diodes
Proposing 3, 5-dicyanopyridine motifs for the design of electroactive materials for
optoelectronic devices, three electron-transporting semiconductors are synthesised. The …
optoelectronic devices, three electron-transporting semiconductors are synthesised. The …
TICT compounds by design: comparison of two naphthalimide-π-dimethylaniline conjugates of different lengths and ground state geometries
Two new twisted intramolecular charge transfer (TICT) donor-π-acceptor compounds were
designed by combining a well-known electron acceptor naphthalimide unit with a classic …
designed by combining a well-known electron acceptor naphthalimide unit with a classic …