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Hydrogen has been an important feedstock for various industries, and its global market is already valued at hundreds of billions of dollars per year. It is also playing additional roles as a clean alternative energy carrier for power generation and as a crucial feedstock in the bioeconomy. This Special Issue “Hydrogen Production Technologies” highlights different thermochemical, electrochemical, and biological technologies such as high- and low-temperature electrolyzers, microchannel reactors, sorption-enhanced reactors, multi-tubular solar reactors, and anaerobic digestors. It also covers other aspects ranging from reactor design, hydrogen storage, and process analysis of different alternatives.

History of engineering & technology --- algae --- anaerobic digestion --- biogas --- biohydrogen --- energy assessment --- kinetic models --- microwave --- nanoparticles --- pretreatment --- solar reactor --- hydrogen production --- solar receiver --- thermal energy --- computational fluid dynamics --- CFD --- model --- titanium nitride --- stainless steel --- alkaline electrolysis --- energy storage --- hydrogen energy --- solid-state hydrogen storage --- unitized regenerative fuel cell --- multi- walled carbon nanotube --- proton battery --- pyrolytic oil hydro-processing --- process modeling --- syngas --- gasification --- sorption-enhanced water-gas shift --- multi-functional material --- hydrogen production processes --- economic viability --- environmental efficiency --- sustainable energy --- multi-criteria analysis --- thermochemical cycles --- micro-channel reactor --- ceria --- ceria-zirconia --- water splitting --- oxygen carrier --- solid oxide electrolysis cells --- sintering additive --- CuO --- steam electrolysis --- compact reactor --- ethanol steam reforming --- water gas shift --- algae --- anaerobic digestion --- biogas --- biohydrogen --- energy assessment --- kinetic models --- microwave --- nanoparticles --- pretreatment --- solar reactor --- hydrogen production --- solar receiver --- thermal energy --- computational fluid dynamics --- CFD --- model --- titanium nitride --- stainless steel --- alkaline electrolysis --- energy storage --- hydrogen energy --- solid-state hydrogen storage --- unitized regenerative fuel cell --- multi- walled carbon nanotube --- proton battery --- pyrolytic oil hydro-processing --- process modeling --- syngas --- gasification --- sorption-enhanced water-gas shift --- multi-functional material --- hydrogen production processes --- economic viability --- environmental efficiency --- sustainable energy --- multi-criteria analysis --- thermochemical cycles --- micro-channel reactor --- ceria --- ceria-zirconia --- water splitting --- oxygen carrier --- solid oxide electrolysis cells --- sintering additive --- CuO --- steam electrolysis --- compact reactor --- ethanol steam reforming --- water gas shift

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Since their discovery, multi-walled carbon nanotubes (MWCNTs) have received tremendous attention due to their unique electrical, optical, physical, chemical, and mechanical properties. Remarkable advances have been made in the synthesis, purification, structural characterization, functionalization, and application of MWCNTs. Their particular characteristics make them well suited for a plethora of applications in a number of fields, namely nanoelectronics, nanofluids, energy management, (electro)catalysis, materials science, construction of (bio)sensors based on different detection schemes, multifunctional nanoprobes for biomedical imaging, and sorbents for sample preparation or removal of contaminants from wastewater. They are also useful as anti-bacterial agents, drug delivery nanocarriers, etc. The current relevant application areas are countless. This Special Issue presents original research and review articles that address advances, trends, challenges, and future perspectives regarding synthetic routes, structural features, properties, behaviors, and industrial or scientific applications of MWCNTs in established and emerging areas.

graphene oxide --- n/a --- Multi-Walled Carbon Nanotube (MWCNT) --- elution --- gold nanoparticles --- MHD --- heck reaction --- drug delivery --- carbon-nanotubes --- water based nanofluid --- zeolitic imidazolate framework --- Ionic liquid --- electroanalysis --- curved stretching sheet --- multiwalled carbon nanotubes --- lubricating oil additives --- hydrophobic drugs --- agricultural irrigation water --- polarity --- cerium oxide --- adsorption --- electrical properties --- non-linear thermal radiation --- electrochemical properties --- nanomaterials --- radar absorbing materials --- chloride diffusion --- RAFT polymerization --- synthesis methods --- gold(III) --- mechanical properties --- dissolution rate --- carbon materials --- electrochemical sensors --- magnetic solid phase extraction --- silicone rubber --- Single-Walled Carbon Nanotube (SWCNT) --- Pd-CNT nanohybrids --- kinetics --- nonylphenol --- boundary layer --- Casson model --- sensing applications --- organochlorine pesticides --- composites --- multi-wall carbon nanotube (MWCNT) --- polymeric composites --- carbon nanotubes --- structural --- azide-alkyne click chemistry --- functionalized carbon nanotubes --- heat generation --- EMI shielding --- gold(I) --- cement mortars --- semi-homogeneous catalysis --- functionalized CNTs --- nanomedicine --- multi-walled carbon nanotubes --- numerical solution --- PMMA --- HAM --- complex permittivity --- thermal radiation --- stretching sheet

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Hydrogen has been an important feedstock for various industries, and its global market is already valued at hundreds of billions of dollars per year. It is also playing additional roles as a clean alternative energy carrier for power generation and as a crucial feedstock in the bioeconomy. This Special Issue “Hydrogen Production Technologies” highlights different thermochemical, electrochemical, and biological technologies such as high- and low-temperature electrolyzers, microchannel reactors, sorption-enhanced reactors, multi-tubular solar reactors, and anaerobic digestors. It also covers other aspects ranging from reactor design, hydrogen storage, and process analysis of different alternatives.

History of engineering & technology --- algae --- anaerobic digestion --- biogas --- biohydrogen --- energy assessment --- kinetic models --- microwave --- nanoparticles --- pretreatment --- solar reactor --- hydrogen production --- solar receiver --- thermal energy --- computational fluid dynamics --- CFD --- model --- titanium nitride --- stainless steel --- alkaline electrolysis --- energy storage --- hydrogen energy --- solid-state hydrogen storage --- unitized regenerative fuel cell --- multi- walled carbon nanotube --- proton battery --- pyrolytic oil hydro-processing --- process modeling --- syngas --- gasification --- sorption-enhanced water–gas shift --- multi-functional material --- hydrogen production processes --- economic viability --- environmental efficiency --- sustainable energy --- multi-criteria analysis --- thermochemical cycles --- micro-channel reactor --- ceria --- ceria-zirconia --- water splitting --- oxygen carrier --- solid oxide electrolysis cells --- sintering additive --- CuO --- steam electrolysis --- compact reactor --- ethanol steam reforming --- water gas shift --- n/a --- sorption-enhanced water-gas shift

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This highly informative and carefully presented book discusses the preparation, processing, characterization and applications of different types of hybrid nanomaterials based on nanocellulose and/or nanocarbons. It gives an overview of recent advances of outstanding classes of hybrid materials applied in the fields of physics, chemistry, biology, medicine, and materials science, among others. The content of this book is relevant to researchers in academia and industry professionals working on the development of advanced hybrid nanomaterials and their applications.

graphene nanoplatelet --- multi-walled carbon nanotube --- hybrid film --- vacuum filtration --- strain sensing --- graphene --- multimodal-high density polyethylene --- melt extrusion --- polymer --- nanocomposite, polymer degradation --- dispersion and distribution of graphene --- nano-cellulose --- MOF --- carbon-doped CuO/Fe3O4 nanocatalyst --- catalytic reduction --- pollutant remedy --- nanocellulose --- cationic microcrystalline cellulose --- high-intensity ultrasonication --- high-pressure homogenization --- acid hydrolysis --- starch nanocomposite films --- cellulose nanofibers --- carbon nanotube --- polyaniline --- hydrogels --- supercapacitor --- cellulose nanofibrils --- graphene nanoplates --- carbon nanotubes --- aerogel --- organic dyes --- adsorption --- nanofibrillated cellulose --- cellulose nanocrystals --- fullerenes --- diamond nanoparticles --- sensors --- drug delivery --- tissue engineering --- wound dressing --- natural rubber latex --- NOCNF --- jute fibers --- nitro-oxidation --- hybrids --- applications --- immunomodulator --- synthesis --- polymerization --- characterization --- cytotoxicity --- reduced graphene oxide --- gum tragacanth --- hydrogel --- hydrogel composite --- mercury ion --- chromium ion --- reusability --- cellulose nanofiber --- chitosan nanofiber --- composite --- mechanical properties --- antioxidant activity --- n/a

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Dear Colleagues,Supramolecular systems (calixarenes, cyclodextrins, polymers, peptides, etc.) have attracted special attention due to their excellent therapeutic properties for biomedical applications such as gene and drug delivery. Numerous biomaterials-based supramolecular systems have been developed in the last decade for enhancing of biocompatibility and pharmacological activity. In particular, supramolecular nanomaterials are considered a hot research topic, because nanomedicine has become an interesting tool for the treatment of genetic diseases or cancer. Nevertheless, novel systems and their properties are being continuously studied, contributing to the development of efficient delivery systems.This Special Issue provides and highlights current progress in the use of the supramolecular systems for boosting gene and drug delivery. Preparation, characterization, and use of these systems, as well as the latest developments in this research field, are especially welcome.Authors are encorauged to submit original research articles and reviews in this promising research field.

Research & information: general --- Chemistry --- β-cyclodextrin-based nanosponge --- phenylethylamine --- 2-amino-4-(4-chlorophenyl)thiazole (AT) --- gold nanoparticles --- carrier of therapeutic agents --- ferritin --- drug delivery --- tumor targeting --- half-life extension --- PAMAM dendrimers --- folic acid --- mRNA --- gene expression --- long acting injectables --- poly(l-lactic acid) --- poly(butylene adipate) --- block copolymers --- aripiprazole --- microparticles --- sustained release --- cationic calix[4]arenes --- liposomes --- nucleic acids --- transfection efficiency --- doxorubicin --- encapsulation --- adenine-uracil base pair --- complementary hydrogen bonded drug carrier system --- controlled drug delivery --- supramolecular nanogels --- selective cytotoxicity --- supramolecular self-assembled ribbon-like structures (SRLS) --- Congo red (CR) --- doxorubicin (Dox) --- bovine serum albumin (BSA) --- immunoglobulin light chain λ (Lλ) --- heat aggregated immunoglobulins (HAI) --- dynamic light scattering (DLS) --- elution volume (Ve) --- multi-walled carbon nanotube --- photothermal therapy --- indocyanine green --- synergistic strategy --- cancer treatment --- targeted drug delivery --- pillararene --- host:guest --- supramolecular --- hydrophobic --- ITC --- NMR --- magnetoliposomes --- microfluidics --- oral drug delivery --- magnetite nanoparticles --- β-cyclodextrin-based nanosponge --- phenylethylamine --- 2-amino-4-(4-chlorophenyl)thiazole (AT) --- gold nanoparticles --- carrier of therapeutic agents --- ferritin --- drug delivery --- tumor targeting --- half-life extension --- PAMAM dendrimers --- folic acid --- mRNA --- gene expression --- long acting injectables --- poly(l-lactic acid) --- poly(butylene adipate) --- block copolymers --- aripiprazole --- microparticles --- sustained release --- cationic calix[4]arenes --- liposomes --- nucleic acids --- transfection efficiency --- doxorubicin --- encapsulation --- adenine-uracil base pair --- complementary hydrogen bonded drug carrier system --- controlled drug delivery --- supramolecular nanogels --- selective cytotoxicity --- supramolecular self-assembled ribbon-like structures (SRLS) --- Congo red (CR) --- doxorubicin (Dox) --- bovine serum albumin (BSA) --- immunoglobulin light chain λ (Lλ) --- heat aggregated immunoglobulins (HAI) --- dynamic light scattering (DLS) --- elution volume (Ve) --- multi-walled carbon nanotube --- photothermal therapy --- indocyanine green --- synergistic strategy --- cancer treatment --- targeted drug delivery --- pillararene --- host:guest --- supramolecular --- hydrophobic --- ITC --- NMR --- magnetoliposomes --- microfluidics --- oral drug delivery --- magnetite nanoparticles