A review was presented to demonstrate a historical description of the synthesis of light-emitting conjugated polymers for applications in electroluminescent devices. Electroluminescence (EL) was first reported in poly(para-phenylene vinylene) (PPV) in 1990 and researchers continued to make significant efforts to develop conjugated materials as the active units in light-emitting devices (LED) to be used in display applications. Conjugated oligomers were used as luminescent materials and as models for conjugated polymers in the review. Oligomers were used to demonstrate a structure and property relationship to determine a key polymer property or to demonstrate a technique that was to be applied to polymers. The review focused on demonstrating the way polymer structures were made and the way their properties were controlled by intelligent and rational and synthetic design.

Synthesis of Light-Emitting Conjugated Polymers for Applications in Electroluminescent Devices

Conducting polymers in biomedical engineering

As an alternative to conventional inorganic intercalation electrode materials, organic electrode materials are promising candidates for the next generation of sustainable and versatile energy storage devices. In this paper we provide an overview of organic electrode materials, including their fundamental knowledge, development history and perspective applications. Based on different organics including n-type, p-type and bipolar, we firstly analyzed their working principles, reaction mechanisms, electrochemical performances, advantages and challenges. To understand the development history and trends in organic electrode materials, we elaborate in detail various organics with different structures, including conducting polymers, organodisulfides, thioethers, nitroxyl radical polymers and conjugated carbonyl compounds. The high electrochemical performance, in addition with the unique features of organics such as flexibility, processability and structure diversity, provide them great perspective in various energy storage devices, including rechargeable Li/Na batteries, supercapacitors, thin film batteries, aqueous rechargeable batteries, redox flow batteries and even all-organic batteries. It is expected that organic electrode materials will show their talents in the “post Li-ion battery” era, towards cheap, green, sustainable and versatile energy storage devices.

Towards sustainable and versatile energy storage devices: an overview of organic electrode materials

All-polymer and paper-based energy storage devices have significant inherent advantages in comparison with many currently employed batteries and supercapacitors regarding environmental friendliness, flexibility, cost and versatility. The research within this field is currently undergoing an exciting development as new polymers, composites and paper-based devices are being developed. In this report, we review recent progress concerning the development of flexible energy storage devices based on electronically conducting polymers and cellulose containing composites with particular emphasis on paper-based batteries and supercapacitors. We discuss recent progress in the development of the most commonly used electronically conducting polymers used in flexible device prototypes, the advantages and disadvantages of this type of energy storage devices, as well as the two main approaches used in the manufacturing of paper-based charge storage devices.

Toward Flexible Polymer and Paper‐Based Energy Storage Devices

Polypyrrole-coated electrospun PLGA nanofibers for neural tissue applications.

Electrochemically synthesised conducting polymeric materials for applications towards technology in electronics, optoelectronics and energy storage devices

High piezoresistivity and its origin in conducting polyaniline/TiO2 composites

Thermal degradation properties of solid polymer electrolyte (poly(vinyl alcohol)+phosphoric acid)/methylene blue composites

Synthesis, characterization and charge transport mechanism in conducting polyaniline/V2O5 composites

Co-precipitation synthesis in the presence of surfactant and characterization of nanosized CaRuO3 powders and its application in fired thick film resistors in nanoelectronics

R Marimuthu

Papers

Electrochemically synthesised conducting polymeric materials for applications towards technology in electronics, optoelectronics and energy storage devices

High piezoresistivity and its origin in conducting polyaniline/TiO2 composites

Thermal degradation properties of solid polymer electrolyte (poly(vinyl alcohol)+phosphoric acid)/methylene blue composites

Synthesis, characterization and charge transport mechanism in conducting polyaniline/V2O5 composites

Co-precipitation synthesis in the presence of surfactant and characterization of nanosized CaRuO3 powders and its application in fired thick film resistors in nanoelectronics