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Book
Development of an Electrochemical Biosensor Platform and a Suitable Low-Impedance Surface Modification Strategy
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ISBN: 1000043414 3731502720 Year: 2014 Publisher: KIT Scientific Publishing

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In this work, a flexible biosensor platform based on impedance spectroscopy and comprising of gold electrodes, polymeric flow cells and a suitable surface modification were developed. Initially, several surface modification techniques described in literature were implemented and optimized for impedimetric biosensors but their individual limitations rendered them unsuitable for this biosensor platform. A novel method based on photobleaching was developed and tested showing satisfactory results.


Book
Characterization and Modeling of Electrochemical Energy Conversion Systems by Impedance Techniques
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ISBN: 1000029318 3866449038 Year: 2012 Publisher: KIT Scientific Publishing

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This thesis introduces (i) amendments to basic electrochemical measurement techniques in the time and frequency domain suitable for electrochemical energy conversion systems like fuel cells and batteries, which enable shorter measurement times and improved precision in both measurement and parameter identification, and (ii) a modeling approach that is able to simulate a technically relevant system just by information gained through static and impedance measurements of laboratory size cells.


Book
Mehrskalige Charakterisierung der Hochtemperatur-Brennstoffzelle (SOFC)
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ISBN: 1000139659 3731511428 Year: 2022 Publisher: Karlsruhe KIT Scientific Publishing

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The solid oxide fuel cell (SOFC) as electricity and heat producer of the future represents a key technology in the context of a climate-friendly energy supply. Research focuses on the improvement of the lifetime and cost reduction of the SOFC components. In this work, microstructural changes that occur during cell production and operation (aging process) are identified by multiscale examination methods.


Book
Charakterisierung und Modellentwicklung von Natur und Funktionalität der Kathoden/Elektrolyt-Grenzfläche von Hochtemperatur-Brennstoffzellen (SOFC)
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Year: 2019 Publisher: KIT Scientific Publishing

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Solid oxide fuel cells (SOFC) achieve high efficiencies, the lower the internal electrochemical losses are. This work investigates insulating secondary phases at the cathode/electrolyte interface that are formed during fabrication. Full cells and model systems are electrochemically characterized, analyzed by electron microscopy and reconstructed by tomography. A FEM model reveals performance limiting factors. As a result, an optimized production routine is proposed.


Book
Charakterisierung und Modellentwicklung von Natur und Funktionalität der Kathoden/Elektrolyt-Grenzfläche von Hochtemperatur-Brennstoffzellen (SOFC)
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Year: 2019 Publisher: KIT Scientific Publishing

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Solid oxide fuel cells (SOFC) achieve high efficiencies, the lower the internal electrochemical losses are. This work investigates insulating secondary phases at the cathode/electrolyte interface that are formed during fabrication. Full cells and model systems are electrochemically characterized, analyzed by electron microscopy and reconstructed by tomography. A FEM model reveals performance limiting factors. As a result, an optimized production routine is proposed.


Book
Recent Advances in Corrosion Science
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Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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The dynamic development of global industry and growing demand for new material technologies generate constantly increasing problems regarding premature material degradation and the requirement to determine corrosion mechanisms and to develop new protection/evaluation approaches. Corrosion resistance depends on numerous determinants, such as material structure, chemistry, and complex environmental factors. It is highly challenging to obtain consensus between high corrosion resistance and an economic approach. On the other hand, inadequate levels of corrosion control create serious hazards to life and the environment. This Special Issue, “Recent Advances in Corrosion Science”, brings together fourteen articles and one review, providing a snapshot of the recent activity and development in this field. The book contains studies related to the development of new corrosion-resistant alloys and the determination of microstructure-dependent properties; it also provides an insight into recent approaches towards anticorrosion technologies, such as corrosion inhibitors and composite and metal protective coatings.

Keywords

Research & information: general --- corrosion inhibitor --- electrochemical --- AFM --- CO2 corrosion --- austempered gray cast iron --- austempering temperature --- microstructure --- potentiodynamic polarization --- electrochemical impedance spectroscopy --- titanium-based alloys --- passivity breakdown --- pitting corrosion --- carbon steel --- indazole derivatives --- electrochemistry --- DFT --- thermal diffusion coatings --- grade 10.9 bolts --- corrosion resistance --- thermal deformation parameters --- 35CrMoV steel --- grain size --- electrochemical corrosion --- aluminum alloys --- phase characterization --- de-alloying --- titanium aluminides --- oxidation --- non-isothermal --- mechanism --- internal oxidation --- pre-corrosion pits --- residual fatigue life --- 42CrMo steel --- stress intensity factor --- aluminum alloy --- alkaline environment --- impedance analysis --- adsorption --- dihydroxybenzene --- magnesium --- immersion test --- polarization --- cleaning --- bond coat --- PDC coatings --- fillers --- EC-AFM --- corrosion --- metallic materials --- metal coatings --- nickel --- composite coatings --- electrodeposition --- XPS --- electrochemical impedance spectroscopy (EIS) --- boron-doped diamond --- high-temperature treatment --- surface oxidation --- microstructure defects --- electrochemical activity --- corrosion inhibitor --- electrochemical --- AFM --- CO2 corrosion --- austempered gray cast iron --- austempering temperature --- microstructure --- potentiodynamic polarization --- electrochemical impedance spectroscopy --- titanium-based alloys --- passivity breakdown --- pitting corrosion --- carbon steel --- indazole derivatives --- electrochemistry --- DFT --- thermal diffusion coatings --- grade 10.9 bolts --- corrosion resistance --- thermal deformation parameters --- 35CrMoV steel --- grain size --- electrochemical corrosion --- aluminum alloys --- phase characterization --- de-alloying --- titanium aluminides --- oxidation --- non-isothermal --- mechanism --- internal oxidation --- pre-corrosion pits --- residual fatigue life --- 42CrMo steel --- stress intensity factor --- aluminum alloy --- alkaline environment --- impedance analysis --- adsorption --- dihydroxybenzene --- magnesium --- immersion test --- polarization --- cleaning --- bond coat --- PDC coatings --- fillers --- EC-AFM --- corrosion --- metallic materials --- metal coatings --- nickel --- composite coatings --- electrodeposition --- XPS --- electrochemical impedance spectroscopy (EIS) --- boron-doped diamond --- high-temperature treatment --- surface oxidation --- microstructure defects --- electrochemical activity


Book
Corrosion and Protection of Metals
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Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Introduction and Scope—During the last few decades, an enormous effort has been made to understand corrosion phenomena and their mechanisms, and to elucidate the causes that dramatically influence the service lifetime of metal materials. The performance of metal materials in aggressive environments is critical for a sustainable society. The failure of the material in service impacts the economy, the environment, health, and society. In this regard, corrosion-based economic losses due to maintenance, repair, and the replacement of existing structures and infrastructure account for up to 4% of gross domestic product (GDP) in well developed countries. One of the biggest issues in corrosion engineering is estimating service lifetime. Corrosion prediction has become very difficult, as there is no direct correlation with service lifetime and experimental lab results, usually as a result of discrepancies between accelerated testing and real corrosion processes. It is of major interest to forecast the impact of corrosion-based losses on society and the global economy, since existing structures and infrastructure are becoming old, and crucial decisions now need to be made to replace them. On the other hand, environmental protocols seek to reduce greenhouse effects. Therefore, low emission policies, in force, establish regulations for the next generation of materials and technologies. Advanced technologies and emergent materials will enable us to get through the next century. Great advances are currently in progress for the development of corrosion-resistant metal materials for different sectors, such as energy, transport, construction, and health. This Special Issue on the corrosion and protection of metals is focused on current trends in corrosion science, engineering, and technology, ranging from fundamental to applied research, thus covering subjects related to corrosion mechanisms and modelling, protection and inhibition processes, and mitigation strategies.

Keywords

high interstitial alloy --- molybdenum --- pitting corrosion --- passive film --- Cu-Mg alloy --- conform --- surface nanocrystallization --- corrosion resistance --- corrosion --- spring steel --- shot peening --- Mott–Schottky analysis --- point defect --- alloy --- magnesium --- SEM-EDS --- EIS --- mass loss --- corrosion layers --- duplex stainless steel --- intergranular corrosion --- stress corrosion cracking --- CPT --- DL-EPR --- aluminum --- heat exchanger --- galvanic corrosion --- simulation --- polarization --- electrochemical impedance spectroscopy --- high velocity oxy fuel coatings --- iron aluminide --- titanium carbide --- atmospheric corrosion --- strain measurement --- mild steel --- corrosion product --- residual stress --- AC current density --- crystallographic texture --- intergranular and transgranular cracks --- brass --- CuZn36Pb2As --- CuZn21Si3P --- dezincification --- simulated drinking water --- long immersion --- mortar --- reinforcement --- lean duplex --- stainless steel --- chloride --- alkalinity --- microstructure --- anodic polarization --- ISO 9223 --- corrosivity categories --- predictive models --- archipelagic regions --- Canary Islands --- X70 steel --- stress corrosion cracking (SCC) --- slow strain rate tests (SSRT) --- electrochemical impedance spectroscopy (EIS) --- cathodic potentials --- Atmospheric corrosion --- corrosion rates --- exposure angle --- orientation angle --- carbon steel --- double loop electrochemical potentiokinetic reactivation (DL−EPR) --- sensitization --- ultrasonic nanocrystal surface modification (UNSM) --- Inconel 718 --- n/a --- Mott-Schottky analysis


Book
Recent Advances in Corrosion Science
Author:
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

The dynamic development of global industry and growing demand for new material technologies generate constantly increasing problems regarding premature material degradation and the requirement to determine corrosion mechanisms and to develop new protection/evaluation approaches. Corrosion resistance depends on numerous determinants, such as material structure, chemistry, and complex environmental factors. It is highly challenging to obtain consensus between high corrosion resistance and an economic approach. On the other hand, inadequate levels of corrosion control create serious hazards to life and the environment. This Special Issue, “Recent Advances in Corrosion Science”, brings together fourteen articles and one review, providing a snapshot of the recent activity and development in this field. The book contains studies related to the development of new corrosion-resistant alloys and the determination of microstructure-dependent properties; it also provides an insight into recent approaches towards anticorrosion technologies, such as corrosion inhibitors and composite and metal protective coatings.


Book
Powder and High-Solid Coatings
Author:
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

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This volume illustrates some of the most innovative aspects of organic coatings designed not only to protect against corrosion but also to obtain smart coatings. Both modification of the composition of organic coatings and performance evaluation techniques are presented.

Keywords

Technology: general issues --- History of engineering & technology --- Materials science --- ATH --- organic powder coatings --- polymer matrix --- pearlescent pigments --- powder coatings --- durability --- ageing treatments --- low VOC --- powder coating --- high-solid coating --- marine atmosphere --- offshore applications --- FBE --- rusted steel --- rust converter --- graphene oxide --- corrosion resistance --- colloidal silver --- cataphoretic deposition process --- salt spray chamber --- electrochemical impedance spectroscopy --- UV-B exposure test --- scanning electrochemical microscopy --- corrosion protection --- coating degradation --- corrosion inhibitor films --- electrochemical activity --- microelectrode --- graphene --- aluminum trihydrate --- electrochemical tests --- laboratory accelerated test --- ATH --- organic powder coatings --- polymer matrix --- pearlescent pigments --- powder coatings --- durability --- ageing treatments --- low VOC --- powder coating --- high-solid coating --- marine atmosphere --- offshore applications --- FBE --- rusted steel --- rust converter --- graphene oxide --- corrosion resistance --- colloidal silver --- cataphoretic deposition process --- salt spray chamber --- electrochemical impedance spectroscopy --- UV-B exposure test --- scanning electrochemical microscopy --- corrosion protection --- coating degradation --- corrosion inhibitor films --- electrochemical activity --- microelectrode --- graphene --- aluminum trihydrate --- electrochemical tests --- laboratory accelerated test


Book
Advanced Electrochemical and Opto-Electrochemical Biosensors for Quantitative Analysis of Disease Markers and Viruses
Authors: --- ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

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The recent global events of the SARS-CoV-2 pandemic in 2020 have alerted the world to the urgent need to develop fast, sensitive, simple, and inexpensive analytical tools that are capable of carrying out a large number of quantitative analyses, not only in centralized laboratories and core facilities but also on site and for point-of-care applications. In particular, in the case of immunological tests, the required sensitivity and specificity is often lacking when carrying out large-scale screening using decentralized methods, while a centralized laboratory with qualified personnel is required for providing quantitative and reliable responses. The advantages typical of electrochemical and optical biosensors (low cost and easy transduction) can nowadays be complemented in terms of improved sensitivity by combining electrochemistry (EC) with optical techniques such as electrochemiluminescence (ECL), EC/surface-enhanced Raman spectroscopy (SERS), and EC/surface plasmon resonance (SPR). This Special Issue addresses existing knowledge gaps and aids in exploring new approaches, solutions, and applications for opto-electrochemical biosensors in the quantitative detection of disease markers, such as cancer biomarkers proteins and allergens, and pathogenic agents such as viruses. Included are seven peer-reviewed papers that cover a range of subjects and applications related to the strategies developed for early diagnosis.

Keywords

Research & information: general --- Biology, life sciences --- Biochemistry --- gold nanoparticles --- doxycycline --- tetracycline --- SPR biosensor --- signal amplification --- clinical diagnosis --- microRNA --- electrochemical biosensor --- catalysts --- RedOx indicator --- cancer biomarker --- electrochemical immune platform --- human ST2 --- plasma --- pancreatic cancer --- collagen type I --- 4,4'-thiobisbenzenethiol --- nanogold --- electrochemical impedance spectroscopy --- surface plasmon resonance --- half antibody --- medical diagnostic devices --- peptide --- antifouling --- protease --- biomarker --- bioreceptor --- SARS-CoV-2 detection --- nasopharyngeal swab --- saliva --- serum --- droplets --- amperometric biosensor --- neural esterase --- acetylcholinesterase --- inhibition --- organophosphate --- design --- optimization --- mathematical model --- flux control --- dimensionless --- gold nanoparticles --- doxycycline --- tetracycline --- SPR biosensor --- signal amplification --- clinical diagnosis --- microRNA --- electrochemical biosensor --- catalysts --- RedOx indicator --- cancer biomarker --- electrochemical immune platform --- human ST2 --- plasma --- pancreatic cancer --- collagen type I --- 4,4'-thiobisbenzenethiol --- nanogold --- electrochemical impedance spectroscopy --- surface plasmon resonance --- half antibody --- medical diagnostic devices --- peptide --- antifouling --- protease --- biomarker --- bioreceptor --- SARS-CoV-2 detection --- nasopharyngeal swab --- saliva --- serum --- droplets --- amperometric biosensor --- neural esterase --- acetylcholinesterase --- inhibition --- organophosphate --- design --- optimization --- mathematical model --- flux control --- dimensionless

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