Employing Lactam Copolymerization Strategy to Effectively Achieve Pure Organic Room‐Temperature Phosphorescence in Amorphous State

Abstract: It is known that without noble metal, the spin flip between singlet states and triplet states is generally a forbidden process and that the long-lived triplet excitons of pure organic luminogens tend to undergo nonradiative decays including thermal motions, collision and exposure to quenchers such as oxygen. [6] Therefore, phosphorescence from metal-free materials is normally observed at low temperature (e.g., 77 K) and under inert conditions (e.g., protection by argon gas). [7] Tang and co-workers proposed c… Show more

“…[13][14][15][16][17][18] Amorphous polymers have been veried to be rigid enough to effectively suppress nonradiative transition and promote RTP emission. [19][20][21][22][23][24][25][26] Various phosphors with different conjugated structures have been utilized to obtain RTP emission of different colours, most of which are excited by UV light and exhibit RTP emission in the visible region. [27][28][29][30][31] Materials with absorption in the visible region and emission in the NIR region are promising candidates in a wide range of elds, such as medical and therapeutic applications, due to their high tissue penetration and low autouorescence.…”

A facile way to obtain near-infrared room-temperature phosphorescent soft materials based on Bodipy dyes

“…[13][14][15][16][17][18] Amorphous polymers have been veried to be rigid enough to effectively suppress nonradiative transition and promote RTP emission. [19][20][21][22][23][24][25][26] Various phosphors with different conjugated structures have been utilized to obtain RTP emission of different colours, most of which are excited by UV light and exhibit RTP emission in the visible region. [27][28][29][30][31] Materials with absorption in the visible region and emission in the NIR region are promising candidates in a wide range of elds, such as medical and therapeutic applications, due to their high tissue penetration and low autouorescence.…”

A facile way to obtain near-infrared room-temperature phosphorescent soft materials based on Bodipy dyes

“…designed several purely organic polymers (PVP–BrHexene, PNVCL–BrNpA, PVP–BrNpA, PVP–BA, PNVCL–BrHexene, and PNVCL–BA) based on lactams ( Figure a,b). [ 52 ] Except for PNVCL–BrHexene, the phosphorescence lifetimes (τ p ) of the polymers vary from 0.13 to 0.94 ms, with phosphorescence quantum yields (Φ p ) ranging from 0.4% to 1.6%. Lactam groups bearing lone pairs not only provide hydrogen bonds but also enhance the ISC rate.…”

Persistent Room‐Temperature Phosphorescence from Purely Organic Molecules and Multi‐Component Systems

“…In 2019, several copolymers whose RTP emission wavelength spanned from 422 to 582 nm have been reported by Ma and co‐workers. [ 52 ] Lactam‐based monomers N‐vinylpyrrolidone (NVP) and N‐vinylcaprolactam (NVCL) were integrated to afford a metal‐free amorphous RTP system (Figure 4b). Remarkably, the excellent biocompatibility, low cost, high hydrophilicity, and intrinsic multiple phosphorescence emission (Figure 4c,d) endowed these PNVP and PNVCL based RTP copolymers with a wide range of applications in materials science.…”

Recent Advances of Polymer‐Based Pure Organic Room Temperature Phosphorescent Materials