Oxygen sensing properties of thianthrene and phenothiazine derivatives exhibiting room temperature phosphorescence: Effect of substitution of phenothiazine moieties

“…Another interesting result observed for these two devices was the appearance of the shoulders in the blue regions of their EL spectra after annealing. These shoulders were caused by the locally excited emission of phenothiazine units . Such a situation is possible when complete energy transfer between donor and acceptor moieties has not occurred due to the changing of dihedral angles under thermal annealing.…”

“…These shoulders were caused by the locally excited emission of phenothiazine units. 51 Such a situation is possible when complete energy transfer between donor and acceptor moieties has not occurred due to the changing of dihedral angles under thermal annealing. As a result, different CIE color coordinates were obtained for non-annealed and annealed OLEDs based on these two compounds (Figure 8b and Table 4).…”

Mechanochromic Materials Based on Tetraphenylethylene-Substituted Phenothiazines: Substituent-Dependent Hypsochromic and Bathochromic Switching of Emission

“…Another interesting result observed for these two devices was the appearance of the shoulders in the blue regions of their EL spectra after annealing. These shoulders were caused by the locally excited emission of phenothiazine units . Such a situation is possible when complete energy transfer between donor and acceptor moieties has not occurred due to the changing of dihedral angles under thermal annealing.…”

“…These shoulders were caused by the locally excited emission of phenothiazine units. 51 Such a situation is possible when complete energy transfer between donor and acceptor moieties has not occurred due to the changing of dihedral angles under thermal annealing. As a result, different CIE color coordinates were obtained for non-annealed and annealed OLEDs based on these two compounds (Figure 8b and Table 4).…”

Mechanochromic Materials Based on Tetraphenylethylene-Substituted Phenothiazines: Substituent-Dependent Hypsochromic and Bathochromic Switching of Emission

“…Taking into account the results of the investigation of the thermal properties of H-PTZ-Bpin, CHO-PTZ-Bpin, CN-PTZ-Bpin, and PhCN-PTZ-Bpin (Table 1), it was concluded that they can be suggested for solid-state applications only in combination with hosts or polymeric matrixes (e.g. poly(vinyl alcohol), 20,21 poly(methyl methacrylate) 19,22 or ZEONEX 23 ). The thermal investigations for H-PTZ-Bpin, CHO-PTZ-Bpin, CN-PTZ-Bpin, and PhCN-PTZ-Bpin were carried out by differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA).…”

“…19 A common method to enhance RTP in metal-free phosphors is to embed them into a carefully selected host matrix such as poly(vinyl alcohol), 20,21 poly(methyl methacrylate) 19,22 or ZEONEX. 23 In this work, a search for single-molecule white light emitters was performed on the basis of phenothiazine boronic ester derivatives (Chart 1) by substitution engineering. In the inert host ZEONEX, 24 one of the derivatives showed high quality white emission with a PLQY of 33%, CIE1931 colour coordinates of (0.26, 0.31), a colour rending index of 73 and colour temperature of 8145 K.…”

“…19 A common method to enhance RTP in metal-free phosphors is to embed them into a carefully selected host matrix such as poly(vinyl alcohol), 20,21 poly(methyl methacrylate) 19,22 or ZEONEX. 23…”

Efficient monomolecular white emission of phenothiazine boronic ester derivatives with room temperature phosphorescence

Ultralong Blue Organic Room‐Temperature Phosphorescence Promoted by Green Assembly