Anothai Kamphan scite author profile

ABSTACT: This study explores the role of segmental solubility of regioregular poly(3-octylthiophene) (rr-P3OT) on chain organization and its photophysical properties. In good solvent chlorobenzene (CRB), rr-P3OT chain adopts an extended conformation, allowing long conjugation length of p-electrons. Cyclohexane is a good solvent for octyl side chain but a poor solvent for the thiophene backbone. The selective segmental interactions of rr-P3OT with this solvent induce conformational change of the polymer. Addition of cyclohexane into the CRB solution leads to chain coiling, which in turn causes significant decrease of the conjugation length. Absorption and photoluminescence spectra of the rr-P3OT in cyclohexane exhibit a blueshift of about 16 nm compared to those of the CRB solution. The change of chain conformation is also detectable by monitoring the variation of quantum yield upon increasing cyclohexane ratio. The quantum yield drops from 0.17 6 0.01 to 0.11 6 0.01 when the extended rr-P3OT chain transforms into coiled conformation. Hexane is a nonsolvent for rr-P3OT due to its relatively low solubility parameter. The addition of hexane into rr-P3OT solution in cyclohexane forces dense packing of thiophene rings within the coiled chain. An intrachain aggregation occurs in this system, leading to the appearance of three distinct redshift peaks in absorption spectra and the drastic drop of quantum yield. Correlation between the growth of redshift peaks and the decrease of quantum yield is clearly observed. FIGURE 8 AFM topography images of rr-P3OT on silicon wafer prepared by drop casting from 0.05 mg mL 21 solution in (a) mixed cyclohexane/hexane (60:40 v/v %) and (b) mixed cyclohexane/hexane (40:60 v/v %).

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Versatile route to prepare reversible thermochromic polydiacetylene nanocomposite using low molecular weight poly(vinylpyrrolidone)

Kamphan

Traiphol

2016

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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On the formation of non-emissive and emissive aggregates of regioregular poly(3-octylthiophene) in different local environments

2014

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Utilization of chromic polydiacetylene assemblies as a platform to probe specific binding between drug and RNA

et al. 2017

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Recognition of nucleic acids remains an important endeavor in biology. Nucleic acids adopt shapes ranging from A-form (RNA and GC rich DNA) to B-form (AT rich DNA). We show, in this contribution, shape-specific recognition of A-U rich RNA duplex by a neomycin (Neo)-polydiacetylene (PDA) complex. PDA assemblies are fabricated by using a well-known diacetylene (DA) monomer, 10,12-pentacosadiynoic acid (PCDA). The response of poly(PCDA) assemblies is generated by mixing with a modified neomycin-PCDA monomer (Neo-PCDA). The functionalization by neomycin moiety provides specific binding with homopolyribonucleotide poly (rA) - poly (rU) stimulus. Various types of alcohols are utilized as additives to enhance the sensitivity of poly(PCDA)/Neo-PCDA assemblies. A change of absorption spectra is clearly observed when a relatively low concentration of poly (rA)-poly (rU) is added into the system. Furthermore, poly(PCDA)/Neo-PCDA shows a clear specificity for poly (rA)-poly (rU) over the corresponding DNA duplex. The variation of linker between neomycin moiety and conjugated PDA backbone is found to significantly affect its sensitivity. We also investigate other parameters including the concentration of Neo-PCDA and the DA monomer structure. Our results provide here preliminary data for an alternative approach to improve the sensitivity of PDA utilized in biosensing and diagnostic applications.

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Anothai Kamphan

Role of Zn2+ ion on the formation of reversible thermochromic polydiacetylene/zinc oxide nanocomposites

Conformational change, intrachain aggregation and photophysical properties of regioregular poly(3‐octylthiophene) in alkanes

Versatile route to prepare reversible thermochromic polydiacetylene nanocomposite using low molecular weight poly(vinylpyrrolidone)

On the formation of non-emissive and emissive aggregates of regioregular poly(3-octylthiophene) in different local environments

Utilization of chromic polydiacetylene assemblies as a platform to probe specific binding between drug and RNA

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