Controlling the Optoelectronic Properties of Pyrene by Regioselective Lewis Base‐Directed Electrophilic Aromatic Borylation

Abstract: Given that pyrene represents one of the most versatile chromophores, the development of new selective routes for its functionalization and tuning of its emission properties is highly desirable. Pyrene‐based BN Lewis pair (LP)‐functionalized polycyclic aromatic hydrocarbons (PAHs) were prepared by regioselective Lewis base‐directed electrophilic aromatic substitution. The requisite 1,6‐dipyridylpyrene ligands were accessed by Suzuki–Miyaura cross‐coupling of 1,6‐bis(pinacolatoboryl)pyrenes with 2‐bromopyridine … Show more

“…Scheme 6 The formation of extended B n -PAHs by bromoboration/ S E Ar. isomer E red1 1/2 ¼ À2.31 V, 1,6 isomer E red1 1/2 ¼ À1.81 V) 11 and the products from the electrophilic borylation of 1,6-(2-pyridyl) 2pyrene (when the boron moiety ¼ BPh 2 E red1 1/2 ¼ À2.08 V) 14 this is ascribed to greater p delocalization in 9a as a result of planarization and three-coordinate B centres. Finally, 9a has a more positive reduction potential than its all carbon analogue (for which E red1 1/2 ¼ À2.11 V), 15 further conrming boron-doping as an effective strategy to obtain molecules with deep LUMOs due to their electron-decient nature (B 2 -PAHs are isoelectronic to dicationic carbon analogues).…”

The synthesis of brominated-boron-doped PAHs by alkyne 1,1-bromoboration: mechanistic and functionalisation studies

“…Scheme 6 The formation of extended B n -PAHs by bromoboration/ S E Ar. isomer E red1 1/2 ¼ À2.31 V, 1,6 isomer E red1 1/2 ¼ À1.81 V) 11 and the products from the electrophilic borylation of 1,6-(2-pyridyl) 2pyrene (when the boron moiety ¼ BPh 2 E red1 1/2 ¼ À2.08 V) 14 this is ascribed to greater p delocalization in 9a as a result of planarization and three-coordinate B centres. Finally, 9a has a more positive reduction potential than its all carbon analogue (for which E red1 1/2 ¼ À2.11 V), 15 further conrming boron-doping as an effective strategy to obtain molecules with deep LUMOs due to their electron-decient nature (B 2 -PAHs are isoelectronic to dicationic carbon analogues).…”

The synthesis of brominated-boron-doped PAHs by alkyne 1,1-bromoboration: mechanistic and functionalisation studies

“…Similar to the case of 1‐pyridylnaphthalene, the borylation of 9,10‐dipyridylanthracene using BCl 3 /AlCl 3 /2,6‐di‐ t ‐butylpyridine (DBP) proceeds preferentially in the peri‐positions to generate a product with 6HCs [10b,d] . Finally, the borylation of 1,6‐dipyridylpyrene occurs in the 2,7‐positions but can be redirected into the 5,10‐ positions (K‐region) by introducing alkyl groups to block the attack in the 2,7‐positions [10e] …”

Linear Extension of Anthracene via B←N Lewis Pair Formation: Effects on Optoelectronic Properties and Singlet O₂Sensitization

“…Using a similar synthetic strategy, they also synthesized two regioisomeric structures containing B←N bonds based on pyrene (40 and 41). [ 89 ] For both Ph and Et substitutions, the six‐member‐contained units (41) show largely red‐shifted absorption and emission maxima relative to the five‐member‐contained units (40).…”

B←N Coordination: From Chemistry to Organic Photovoltaic Materials