900-99-2Relevant articles and documents
Coordination polymers constructed from a tripodal phosphoryl carboxylate ligand: Synthesis, structures and physical properties
Yang, Yan-Yan,Lin, Zu-Jin,Liang, Jun,Huang, Yuanbiao,Cao, Rong
, p. 4547 - 4553 (2015)
By employment of a new tripodal phosphoryl carboxylate ligand, tris(p-carboxyl-biphenyl)phosphine oxide (H3TBPPO), four novel coordination polymers, namely, Zn3(TBPPO)2 (1), Cd3(TBPPO)2 (2), Co3
Solution processible triphenylphosphine-oxide-cored dendritic hosts featuring thermally activated delayed fluorescence for power-efficient blue electrophosphorescent devices
Zhang, Mingming,Chen, Liang,Xu, Xiushang,Zhao, Lei,Wang, Shumeng,Ding, Junqiao,Wang, Lixiang
, p. 9850 - 9855 (2019)
Based on oligocarbazole, a carbazole/acridine hybrid and oligoacridine as the dendron, a series of solution processible triphenylphosphine-oxide-cored dendrimers denoted as 3CzCz-PO, 3AcCz-PO, and 3AcAc-PO have been designed and synthesized, respectively.
Efficient solution-processed deep-blue organic light-emitting diodes based on multibranched oligofluorenes with a phosphine oxide center
Liu, Cui,Li, Yanhu,Li, Yifan,Yang, Chuluo,Wu, Hongbin,Qin, Jingui,Cao, Yong
, p. 3320 - 3327 (2013)
A series of multibranched oligofluorenes with a phosphine oxide center were designed and synthesized through Suzuki cross-coupling reaction. Their thermal, photophysical, and electrochemical properties were investigated. The phosphine oxide linkage can di
Superphenylphosphines: Nanographene-Based Ligands That Control Coordination Geometry and Drive Supramolecular Assembly
Smith, Jordan N.,Hook, James M.,Lucas, Nigel T.
, p. 1131 - 1141 (2018/02/07)
Tertiary phosphines remain widely utilized in synthesis, most notably as supporting ligands in metal complexes. A series of triarylphosphines bearing one to three hexa-peri-hexabenzocoronene (HBC) substituents has been prepared by an efficient divergent route. These "superphenylphosphines", P{HBC(t-Bu)5}nPh3-n (n = 1-3), form the palladium complexes PdCl2L2 and Pd2Cl4L2 where the isomer distribution in solution is dependent on the number of HBC substituents. The crystalline structures of five complexes all show intramolecular π-stacking between HBC-phosphines to form a supramolecular bidentate-like ligand that distorts the metal coordination geometry. When n = 2 or 3, the additional HBC substituents engage in intermolecular π-stacking to assemble the complexes into continuous ribbons or sheets. The phosphines adopt HBC's characteristics including strong optical absorption, green emission, and redox activity.