Electrochemistry of conductive polymers. 33. Electrical and optical properties of electrochemically deposited poly (3-mehtylthiophene) films employing current-sensing atomic force microscopy and reflectance spectroscopy

Article Abstract:

The study of electrical and chemical properties of poly (3-methylthiophene) (P3MeT) films, using the current-sensing atomic force microscopic (CS-AFM) and near-normal incidence reflectance spectroscopic (NNIRS) techniques is presented. The results revealed that the electrical properties of pi-conjugated conducting polymers obtained from CS-AFM are well correlated with the absorbance data obtained from the NNIRS technique, which represent the average macroscopic properties of the P3MeT film.

Semiconductors and related devices, Semiconductor and Related Device Manufacturing, Thin Film Materials, Usage, Electric properties, Thin films, Dielectric films, Atomic force microscopy, Chemical properties, Thiophene

---

ArF laser-induced chemical vapor deposition of polythiene films from carbon disulfide

Article Abstract:

The proposed polymerization mechanism of carbon sulfide is explained. Physical properties of the C/S polymeric materials are discussed.

Petroleum Refineries, Petroleum refining, Polymerization, Addition polymerization, Mechanical properties, Carbon compounds, Structure

---

Similar abstracts:

• Abstracts: Study of the polydispersity of grafted poly(dimethylsiloxane) surfaces using single-molecule atomic force microscopy
• Abstracts: Microinterferometric study of the structure, interfacial potential, and viscoelastic properties of polyelectrolyte multilayer films on a planar substrate
• Abstracts: Sublattice resolution structural and chemical analysis of individual CdSe nanocrystals using atomic number contrast scanning transmission electron microscopy and electron energy loss spectroscopy
• Abstracts: Charge recombination in conjugated polymer/fullerene blended films studied by transient absorption spectroscopy
• Abstracts: Ordered micro/mesoporous composite prepared as thin films. Structural, chemical and electronic properties of Pt/Ni thin film electrodes for methanol electrooxidation

This website is not affiliated with document authors or copyright owners. This page is provided for informational purposes only. Unintentional errors are possible.