-
1754444
DeltaEST
decreases singlet-triplet energy gap
4
-
1754427
DeltaEST
differences between the singlet and triplet states
4
-
1754433
DeltaEST
due to the combination of small singlet-triplet splitting energy
2
-
1754441
DeltaEST
C-dots resulted from the small energy gap
1
-
1754442
DeltaEST
DBPZ segments produced small singlet-triplet energy splitting
1
-
1754447
DeltaEST
dealing with the relation between singlet-triplet splitting
1
-
1754445
DeltaEST
dependence of the singlet-triplet energy gap
1
-
1754446
DeltaEST
derivatives exhibit an extremely rare inverted singlet/triplet energy splitting
1
-
1754424
DeltaEST
design enables small singlet-triplet energy splitting
1
-
1754420
DeltaEST
design leads to a reduced singlet-triplet energy gap
1
-
1754421
DeltaEST
design strategies, combining low singlet-triplet energy gaps
1
-
1754422
DeltaEST
designed with both small singlet-triplet splitting
1
-
1754423
DeltaEST
determination of the singlet/triplet gap
1
-
1754426
DeltaEST
difference between lowest excited singlet and triplet states
1
-
1754425
DeltaEST
differences between the singlet and triplet ground state energies
1
-
1754432
DeltaEST
dimer is characterized with significantly higher energy gaps
1
-
1754428
DeltaEST
distances, large singlet-triplet energy gaps
1
-
1754429
DeltaEST
donor and acceptor almost orthogonal, reducing the energy gap
1
-
1754430
DeltaEST
donor and acceptor for a sufficiently small singlet-triplet energy gap
1
-
1754431
DeltaEST
donor engineering by integrating the smaller singlet-triplet energy gap
1
-
1754443
DeltaEST
DPPTh with a small singlet-triplet splitting
1
-
1754434
DeltaEST
due to their intense luminescence and narrow exchange energies
1
-
1754435
DeltaEST
electron-donating strengths on the singlet-triplet energy gap
1
-
1754436
DeltaEST
electron-donor and electron-acceptor moieties, achieving a small singlet-triplet energy gap
1