Organic semiconductors can be designed and constructed in π‐stacked structures instead of
the conventional π‐conjugated structures. Through‐space interaction (TSI) occurs in π …

Conspectus Designing bright and efficient near-infrared (NIR) emitters has drawn much
attention due to numerous applications ranging from biological imaging, medical therapy …

This review highlights recent studies discovering unconventional halogen bonding (HaB)
that involves positively charged metal centers. These centers provide their filled d‐orbitals …

Here we describe the synthesis and characterization of a new class of dinuclear PtII
complexes with blue phosphorescence. Bulky N‐heterocyclic carbene and tethered bridging …

Compared to Ir (III) complexes with octahedral geometries, Pt (II) complexes with square
planar geometries show superior optical properties because their flat shapes lead to an …

Dinuclear Pt (III) complexes were commonly reported to have short-lived lowest-lying triplet
states, resulting in extremely weak or no photoluminescence. To overcome this obstacle, a …

PtII complexes have attracted a great deal of interest due to their rich phosphorescent
properties. However, these square‐planar PtII complexes are far more likely to encounter …

The theoretical data for the half‐lantern complexes [{Pt ()(μ‐)} 2][1–3; is cyclometalated 2‐Ph‐
benzothiazole; is 2‐SH‐pyridine (1), 2‐SH‐benzoxazole (2), 2‐SH‐tetrafluorobenzothiazole …

Ligand design allows arranging ligand entities and functional groups in order to generate a
plethora of non-covalent interactions such as π stacking, H bridging, and Lewis acid-base …

The binuclear half-lantern platinum (II) complexes [Pt (pbt)(μ-S∧ N)] 2 (pbtH= 2-
phenylbenzothiazole, S∧ N= benzo [d] thiazole-2-thiolate Pt1, 6-fluorobenzo [d] thiazole-2 …