Synthetic Principles for Bandgap Control in Linear pi-Conjugated Systems.

Support materials for PEMFC and DMFC electrocatalysts—A review

2.2. Cathodic Electropolymerization 4732 2.2.1. Electropolymerization of PPXs and PPVs 4732 3. Charging-Discharging of Conducting Polymers 4733 3.1. Redox Properties of Oligomers and Polymers 4733 3.2. Specific Phenomena of n-Doping 4739 3.3. Conductivity in Charged Systems 4740 4. Controlling the Electropolymerization Process 4742 4.1. Influence of the Polymerization Technique 4742 4.2. Influence of Experimental Conditions 4743 4.3. Electropolymerization in Novel Electrolytic Media 4745

Electrochemistry of Conducting Polymers—Persistent Models and New Concepts†

Microbial fuel cells (MFCs) have been conceived and intensively studied as a promising technology to achieve sustainable wastewater treatment. However, doubts and debates arose in recent years regarding the technical and economic viability of this technology on a larger scale and in a real-world applications. Hence, it is time to think about and examine how to recalibrate this technology's role in a future paradigm of sustainable wastewater treatment. In the past years, many good ideas/approaches have been proposed and investigated for MFC application, but information is scattered. Various review papers were published on MFC configuration, substrates, electrode materials, separators and microbiology but there is lack of critical thinking and systematic analysis of MFC application niche in wastewater treatment. To systematically formulate a strategy of (potentially) practical MFC application and provide information to guide MFC development, this perspective has critically examined and discussed the problems and challenges for developing MFC technology, and identified a possible application niche whereby MFCs can be rationally incorporated into the treatment process. We propose integration of MFCs with other treatment technologies to form an MFC-centered treatment scheme based on thoroughly analyzing the challenges and opportunities, and discuss future efforts to be made for realizing sustainable wastewater treatment.

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Towards sustainable wastewater treatment by using microbial fuel cells-centered technologies

Electrochemical sensors based on conducting polymer—polypyrrole

EQCM study of the ion exchange behaviour of polypyrrole with different counterions in different electrolytes

Conducting polymers as ion-exchangers for water purification

Platinum distribution and electrocatalytic properties of modified polypyrrole films

This article for the first time demonstrates successful application of electrochemical processes to stimulate sequential reductive/oxidative microbial degradation of perchloroethene (PCE) in minera...

Klaus-Michael Mangold

Papers

EQCM study of the ion exchange behaviour of polypyrrole with different counterions in different electrolytes

Conducting polymers as ion-exchangers for water purification

Platinum distribution and electrocatalytic properties of modified polypyrrole films

Sequential Reductive and Oxidative Biodegradation of Chloroethenes Stimulated in a Coupled Bioelectro-Process

Electrochemical degradation of perfluoroalkyl and polyfluoroalkyl substances (PFASs) in groundwater.