Chemically doped perylene diimide lamellae based field effect transistor with low operating voltage and high charge carrier mobility

Abstract: Chemical doping of an electron transporter results in the formation of a radical anion containing semiconductor which showed high electron mobility (13 cm(2) V(-1) s(-1)) at low operating voltage (1 V).

“…14 As a proof, hydrazine-doped metalloorganic nanowires with ∼2 nm lamellae consisting of Zn 2+ doped N,N′-di(phenyl-3,5-dicarboxylic acid)-PDI radical anions have been used to construct efficient OFETs devices leading to a high electron mobility (13 cm 2 V −1 s −1 ) at a low operating voltage of 1 V under ambient conditions. 93 Further progress may be derived from the photoconductive 1D nanofibers of Lalanine-modified PDI in the presence of unusually air/waterstable perylene radical anions. 91 The fabrication strategy often imposes a significant effect on the morphology and sequent device performance.…”

“…56 Many attempts have been made to unveil the relationships between the molecular structures of PDIs and OFET performances. 56,77,93 Commercially available molecules, PDI-C5, PDI-C8, and PDI-C13, have received considerable attention in this field. 56,77 Recent studies have demonstrated their bisolvent-phase selfassembled 1D nanowires feasible in fabricating n-type OFETs via the solution process (Figure 23a−c).…”

Self-Assembly of Perylene Imide Molecules into 1D Nanostructures: Methods, Morphologies, and Applications

“…14 As a proof, hydrazine-doped metalloorganic nanowires with ∼2 nm lamellae consisting of Zn 2+ doped N,N′-di(phenyl-3,5-dicarboxylic acid)-PDI radical anions have been used to construct efficient OFETs devices leading to a high electron mobility (13 cm 2 V −1 s −1 ) at a low operating voltage of 1 V under ambient conditions. 93 Further progress may be derived from the photoconductive 1D nanofibers of Lalanine-modified PDI in the presence of unusually air/waterstable perylene radical anions. 91 The fabrication strategy often imposes a significant effect on the morphology and sequent device performance.…”

“…56 Many attempts have been made to unveil the relationships between the molecular structures of PDIs and OFET performances. 56,77,93 Commercially available molecules, PDI-C5, PDI-C8, and PDI-C13, have received considerable attention in this field. 56,77 Recent studies have demonstrated their bisolvent-phase selfassembled 1D nanowires feasible in fabricating n-type OFETs via the solution process (Figure 23a−c).…”

Self-Assembly of Perylene Imide Molecules into 1D Nanostructures: Methods, Morphologies, and Applications

“…11,12 Nevertheless a few stable n-type dopants have been reported via mechanisms other than integer charge transfer. [13][14][15][16][17][18][19][20][21][22][23][24][25] For example the addition of 1H-benzimidazole or benzimidazolium salts has succeeded in tuning of the work function of graphene and the conductivity of fullerene derivatives. 13,26 Mechanistic studies in the solution phase found that the dopant reacted with the fullerene derivative through hydride or hydrogen atom transfer to afford host radical anions, which were responsible for the doping effect.…”

Anion-induced N-doping of naphthalenediimide polymer semiconductor in organic thin-film transistors

“…Finally, we investigated the practical utility of bimetallic Pd‐ZnO nanohybrid materials for the preparation of dibromo perylenebiisimide (PBI) derivative (22) . The PBI derivatives are important due to their great applications in the field of material– and supramolecular chemistry –. As shown in Scheme , in the presence of bimetallic Pd‐ZnO nanohybrid materials the reaction between dibromoderivative (21) and phenylacetylene (13) afforded the desired product in 9 h in excellent (90 %) yield (Figure S68).…”

Tailoring of Hetero–oligophenylene Stabilized Nanohybrid Materials: Potential Tandem Photo‐Promoted Systems for C–C and C–X Bond Formation Reactions via C‐H Activation