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This book focuses on the design of polymeric delivery systems for biomedical and nanomedicine applications as well as on understanding how such biomaterials interact in the physiological environment. The reader will find an encompassing view on the state-of-the-art of polymeric carriers, showing how current research deals with new stimuli-responsive systems for cancer therapies and biomedical challenges, namely overcoming the skin barrier. The published papers cover topics ranging from novel production methods and insights on hybrid polymers to applications as diverse as nanoparticles, hydrogels and microneedles for antifungal skin therapy, peptide and siRNA delivery, enhanced skin absorption of bioactive molecules, and anticancer therapy. The book comprises one review paper and nine research papers.

osteoarthritis --- monosodium iodoacetate --- p47phox --- PLGA nanoparticles --- reactive oxygen species --- full factorial design --- optimization --- metronidazole --- nanocomposites --- sodium alginate --- chitosan --- PLGA --- hybrid polymers --- chitosan-PLGA polymer --- NMR --- DSC --- FT-IR --- covalent drug conjugation --- therapeutic nanodevice --- polymeric nanoparticles --- cancer therapy --- controlled drug delivery --- redox responsive PEG-block-PLA --- nanocarriers --- disulfide bond --- controlled release --- retinol --- nanosponge --- hydrogel --- Box–Behnken design --- pharmacokinetic --- terbinafine hydrogel --- niacinamide --- polyethene glycol (PEG) 400 --- solvent --- dermal delivery --- finite dose --- porcine skin --- dissolving microneedles --- multiple sclerosis --- PLP --- transdermal delivery --- tyrosol --- nanoparticles --- Design of Experiment (DoE) --- β cyclodextrin --- DNA binding --- glyconanoparticles --- immunotherapy --- infectious diseases --- mannose receptors --- nutraceuticals --- n/a --- Box-Behnken design

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Atmospheric pressure plasma discharges have grown rapidly in importance in recent decades, due to the ease in handling and operation, plus their eco-friendly applications, for agriculture, food, medicine, materials and even the automotive and aerospace industries. In this context, the need for a collection of results based on plasma technologies is justified. Moreover, at the international level, the increased number of projects that translated to publications and patents in the multidisciplinary field of plasma-based technology gives researchers the opportunity to challenge their knowledge and contribute to a new era of green services and products that society demands. Therefore, this book, based on the Special Issue of “Frontiers in Atmospheric Pressure Plasma Technology” in the “Applied Physics” section of the journal Applied Sciences, provides results on some plasma-based methods and technologies for novel and possible future applications of plasmas in life sciences, biomedicine, agriculture, and the automotive industry.This book, entitled “Frontiers in Atmospheric Pressure Plasma Technology”, consists of 8 research articles, 2 review articles and 1 editorial. We know that we are only managing to address a small part of what plasma discharge can be used for, but we hope that the readers will enjoy this book and, therefore, be inspired with new ideas for future research in the field of plasma.

Technology: general issues --- cold atmospheric pressure plasma --- antimicrobial agent --- plasma medicine --- dentistry --- atmospheric pressure plasma jet (APPJ) --- optical emission spectroscopy (OES) --- plasma-surface interactions --- local surface modification --- polymers --- functionalization --- atmospheric pressure plasma --- transdermal permeability --- transdermal delivery --- nitric oxide --- wounds --- biofilm --- plasma jet --- DBD plasma --- plasma jets --- plasma properties --- reactive species --- RONS --- non-thermal plasma --- transient spark --- electrospray --- plasma-activated water --- nitrous acid --- nitrites --- atmospheric pressure plasma jet --- plasma-wine making --- plasma treatment --- UV-Vis spectroscopy --- ATR-FTIR spectroscopy --- bio-medicine application --- cold gas-discharge plasma --- digital holography --- digital holographic interferometry --- plasma diagnostics --- CAP --- electric diagnosis --- E-field measurements --- vacuum-ultraviolet spectroscopy --- patient leakage current --- power measurement --- voltage-charge plot --- OES --- bio-medical plasma applications --- surface-wave-sustained discharge --- microwave discharge --- cold atmospheric plasma --- microwave plasma torch --- cold atmospheric pressure plasma --- antimicrobial agent --- plasma medicine --- dentistry --- atmospheric pressure plasma jet (APPJ) --- optical emission spectroscopy (OES) --- plasma-surface interactions --- local surface modification --- polymers --- functionalization --- atmospheric pressure plasma --- transdermal permeability --- transdermal delivery --- nitric oxide --- wounds --- biofilm --- plasma jet --- DBD plasma --- plasma jets --- plasma properties --- reactive species --- RONS --- non-thermal plasma --- transient spark --- electrospray --- plasma-activated water --- nitrous acid --- nitrites --- atmospheric pressure plasma jet --- plasma-wine making --- plasma treatment --- UV-Vis spectroscopy --- ATR-FTIR spectroscopy --- bio-medicine application --- cold gas-discharge plasma --- digital holography --- digital holographic interferometry --- plasma diagnostics --- CAP --- electric diagnosis --- E-field measurements --- vacuum-ultraviolet spectroscopy --- patient leakage current --- power measurement --- voltage-charge plot --- OES --- bio-medical plasma applications --- surface-wave-sustained discharge --- microwave discharge --- cold atmospheric plasma --- microwave plasma torch

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Atmospheric pressure plasma discharges have grown rapidly in importance in recent decades, due to the ease in handling and operation, plus their eco-friendly applications, for agriculture, food, medicine, materials and even the automotive and aerospace industries. In this context, the need for a collection of results based on plasma technologies is justified. Moreover, at the international level, the increased number of projects that translated to publications and patents in the multidisciplinary field of plasma-based technology gives researchers the opportunity to challenge their knowledge and contribute to a new era of green services and products that society demands. Therefore, this book, based on the Special Issue of “Frontiers in Atmospheric Pressure Plasma Technology” in the “Applied Physics” section of the journal Applied Sciences, provides results on some plasma-based methods and technologies for novel and possible future applications of plasmas in life sciences, biomedicine, agriculture, and the automotive industry.This book, entitled “Frontiers in Atmospheric Pressure Plasma Technology”, consists of 8 research articles, 2 review articles and 1 editorial. We know that we are only managing to address a small part of what plasma discharge can be used for, but we hope that the readers will enjoy this book and, therefore, be inspired with new ideas for future research in the field of plasma.

cold atmospheric pressure plasma --- antimicrobial agent --- plasma medicine --- dentistry --- atmospheric pressure plasma jet (APPJ) --- optical emission spectroscopy (OES) --- plasma-surface interactions --- local surface modification --- polymers --- functionalization --- atmospheric pressure plasma --- transdermal permeability --- transdermal delivery --- nitric oxide --- wounds --- biofilm --- plasma jet --- DBD plasma --- plasma jets --- plasma properties --- reactive species --- RONS --- non-thermal plasma --- transient spark --- electrospray --- plasma-activated water --- nitrous acid --- nitrites --- atmospheric pressure plasma jet --- plasma-wine making --- plasma treatment --- UV-Vis spectroscopy --- ATR-FTIR spectroscopy --- bio-medicine application --- cold gas-discharge plasma --- digital holography --- digital holographic interferometry --- plasma diagnostics --- CAP --- electric diagnosis --- E-field measurements --- vacuum-ultraviolet spectroscopy --- patient leakage current --- power measurement --- voltage-charge plot --- OES --- bio-medical plasma applications --- surface-wave-sustained discharge --- microwave discharge --- cold atmospheric plasma --- microwave plasma torch --- n/a