TY - JOUR
T1 - Synthesis of dimethyl- and diphenylsilane-based oligo(azine)s
T2 - Thermal, optical, electronic, and morphological properties
AU - Sobarzo, Patricio A.
AU - Jessop, Ignacio A.
AU - Pérez, Yasmín
AU - Hauyon, René A.
AU - Velázquez-Tundidor, María V.
AU - Medina, Jean
AU - González, Alexis
AU - García, Luis E.
AU - González-Henríquez, Carmen M.
AU - Coll, Deysma
AU - Ortiz, Pablo A.
AU - Tundidor-Camba, Alain
AU - Terraza, Claudio A.
N1 - Publisher Copyright:
© 2022 Wiley Periodicals LLC.
PY - 2022/10/10
Y1 - 2022/10/10
N2 - Four new oligo(azine)s were synthesized from dimethyldiphenylsilane and tetraphenylsilane core-based dialdehydes and hydrazine by high-temperature polycondesation and proposed as materials for optoelectronic applications. The oligo(azine)s were characterized by EA, FT-IR, and NMR. Although most of samples were poorly soluble, TPS-containing PAZ-4 was soluble in aprotic polar solvents. According to SEC and FT-IR studies, the samples were oligomers with up to five repeating units long. TGA showed highly stable samples with TDT10% over 420°C except for PAZ-1 that contains a DMS core along with phenyl units, and thus, the lowest carbon content in the series. From DSC analysis, the substitution of phenyl groups in PAZ-1/3 by biphenyl moieties in PAZ-2/4 allowed to obtain oligo(azine)s with lower Tg values. PAZ-4 showed a UV-A absorption with optical band-gap values of 2.91 and 2.65 eV from UV–vis (solution) and DRS (films), respectively. PL analysis showed a violet emission. PAZ-4 showed resistivity of 29.24 Ω cm, similar to wide-band gap materials. Their contact angle measurements showed a critical surface tension of 42.29 dynes/cm, revealing its hydrophobicity. AFM analysis indicated that the PAZ-4 films had homogeneous surfaces. Young's modulus close to 4.46 GPa was established by microindentation for the PAZ-4 thin-films.
AB - Four new oligo(azine)s were synthesized from dimethyldiphenylsilane and tetraphenylsilane core-based dialdehydes and hydrazine by high-temperature polycondesation and proposed as materials for optoelectronic applications. The oligo(azine)s were characterized by EA, FT-IR, and NMR. Although most of samples were poorly soluble, TPS-containing PAZ-4 was soluble in aprotic polar solvents. According to SEC and FT-IR studies, the samples were oligomers with up to five repeating units long. TGA showed highly stable samples with TDT10% over 420°C except for PAZ-1 that contains a DMS core along with phenyl units, and thus, the lowest carbon content in the series. From DSC analysis, the substitution of phenyl groups in PAZ-1/3 by biphenyl moieties in PAZ-2/4 allowed to obtain oligo(azine)s with lower Tg values. PAZ-4 showed a UV-A absorption with optical band-gap values of 2.91 and 2.65 eV from UV–vis (solution) and DRS (films), respectively. PL analysis showed a violet emission. PAZ-4 showed resistivity of 29.24 Ω cm, similar to wide-band gap materials. Their contact angle measurements showed a critical surface tension of 42.29 dynes/cm, revealing its hydrophobicity. AFM analysis indicated that the PAZ-4 films had homogeneous surfaces. Young's modulus close to 4.46 GPa was established by microindentation for the PAZ-4 thin-films.
KW - optical and photovoltaic applications
KW - optical properties
KW - polycondensation
UR - https://www.scopus.com/pages/publications/85135025865
U2 - 10.1002/app.52911
DO - 10.1002/app.52911
M3 - Article
AN - SCOPUS:85135025865
SN - 0021-8995
VL - 139
JO - Journal of Applied Polymer Science
JF - Journal of Applied Polymer Science
IS - 38
M1 - e52911
ER -
