Four diplatinum(II) complexes with the formula [Pt(pypm)(μ-F)] (, -) bearing both a pyridine-pyrimidinate chelate and formamidinate bridge, where (pypm)H and FH stand for 5-(pyridin-2-yl)-2-(trifluoromethyl)pyrimidine and functional formamidines with various substituents of Pr ( = 1), Ph ( = 2), CHBu ( = 3), and CHCF ( = 4), were synthesized en route from a mononuclear intermediate represented by [Pt(pypm)Cl(FH)] (). Single-crystal X-ray diffraction studies confirmed the structure of and comprised of an individual "Pt(pypm)" unit and two "Pt(pypm)" units with a Pt···Pt distance of 2.8845(2) Å, respectively. Therefore, in contrast to the structured emission of mononuclear with the first vibronic peak wavelength at 475 nm, all other diplatinum complexes with shortened Pt···Pt separation exhibited greatly red shifted and structureless metal-metal to ligand charge transfer (MMLCT) emission that extended into the near-infrared region in solid states. Their photophysical characteristics were measured under three distinctive morphological states (i.e., crystals, sublimed powders, and vacuum-deposited thin films) by steady-state UV-vis spectroscopy, while retention of Pt···Pt interactions in deposited thin films of and - was confirmed using Raman spectroscopy, demonstrating lowered Pt···Pt stretching at 80-200 cm. Most importantly, complexes - exhibited a gradual red shift with the trends crystals < sublimed powders < vacuum-deposited thin films, a result of increased intermolecular π-π stacking interactions and Pt···Pt interactions, while crystalline samples exhibited the highest luminescence among all three morphological states due to the fewest defects in comparison to other morphologies. Finally, was selected as a nondoped emitter for the fabrication of NIR-emitting OLEDs, giving an electroluminescence peak at 767 nm and a maximum external quantum efficiency of 0.14% with negligible roll-off.