Your search keyword '"Monica Florentina Raduly"' showing total 21 results

1. Cellulose Fabrics Functionalized with Sol–Gel Photocatalytic Coatings Based on Iron (III) Phthalocyanine Tetracarboxylic Acids–TiO2–Silica Hybrids

Author

Alina Raditoiu, Valentin Raditoiu, Monica Florentina Raduly, Augusta Raluca Gabor, Adriana Nicoleta Frone, Maria Grapin, and Mihai Anastasescu

Subjects

photocatalyst, phthalocyanine, hybrid silica gels, cellulose, sol–gel coatings, xerogels, Science, Chemistry, QD1-999, Inorganic chemistry, QD146-197, General. Including alchemy, QD1-65

Abstract

Photocatalytic coatings are difficult to obtain on textile materials because of the sometimes contradictory properties that must be achieved. In order to obtain a high efficiency of a photocatalytic effect, the metal–oxide semiconductor must be found in the vicinity of the coating–air interface in order to come into direct contact with the contaminant species and allow light radiation access to its surface. Another necessary condition is related to the properties of the covering textile material as well as to the stability of the xerogel films to light and wet treatments. In this sense, we proposed a solution based on hybrid silica films generated by sol–gel processes, coatings that contain as a photocatalyst TiO2 sensitized with tetracarboxylic acid of iron (III) phthalocyanine (FeTCPc). The coatings were made by the pad–dry–cure process, using in the composition a bifunctional anchoring agent (3-glycidoxipropyltrimethoxysilane, GLYMO), a crosslinking agent (sodium tetraborate, BORAX), and a catalyst (N-methylimidazole, MIM) for the polymerization of epoxy groups. The photodegradation experiments performed on methylene blue (MB), utilized as a model contaminant, using LED or xenon arc as light sources, showed that the treatment with BORAX improves the resistance of the coatings to wet treatments but worsens their photocatalytic performances.

Published

2023

2. Bio-Based Poly(lactic acid)/Poly(butylene sebacate) Blends with Improved Toughness

Author

Adriana Nicoleta Frone, Marius Stelian Popa, Cătălina Diana Uşurelu, Denis Mihaela Panaitescu, Augusta Raluca Gabor, Cristian Andi Nicolae, Monica Florentina Raduly, Anamaria Zaharia, and Elvira Alexandrescu

Subjects

poly(butylene sebacate), biopolymer blends, thermal analysis, dynamic mechanical analysis, Organic chemistry, QD241-441

Abstract

A series of poly(butylene sebacate) (PBSe) aliphatic polyesters were successfully synthesized by the melt polycondensation of sebacic acid (Se) and 1,4-butanediol (BDO), two monomers manufactured on an industrial scale from biomass. The number average molecular weight (Mn) in the range from 6116 to 10,779 g/mol and the glass transition temperature (Tg) of the PBSe polyesters were tuned by adjusting the feed ratio between the two monomers. Polylactic acid (PLA)/PBSe blends with PBSe concentrations between 2.5 to 20 wt% were obtained by melt compounding. For the first time, PBSe’s effect on the flexibility and toughness of PLA was studied. As shown by the torque and melt flow index (MFI) values, the addition of PBSe endowed PLA with both enhanced melt processability and flexibility. The tensile tests and thermogravimetric analysis showed that PLA/PBSe blends containing 20 wt% PBSe obtained using a BDO molar excess of 50% reached an increase in elongation at break from 2.9 to 108%, with a negligible decrease in Young’s modulus from 2186 MPa to 1843 MPa, and a slight decrease in thermal performances. These results demonstrated the plasticizing efficiency of the synthesized bio-derived polyesters in overcoming PLA’s brittleness. Moreover, the tunable properties of the resulting PBSe can be of great industrial interest in the context of circular bioeconomy.

Published

2022

3. Effect of Nanocellulose Type on the Properties of a Bio-Based Epoxy System

Author

Marius-Stelian Popa, Celina Maria Damian, Brîndușa Bãlãnucã, Denis Mihaela Panaitescu, Augusta Raluca Gabor, Cristian Andi Nicolae, Valentin Rădiţoiu, Monica Florentina Raduly, and Adriana Nicoleta Frone

Subjects

nanocellulose, epoxidized linseed oil, thermal properties, Chemistry, QD1-999

Abstract

With the continuous depletion of fossil oils and resulting environmental concerns, there is an urgent need to develop polymeric materials from renewable resources [1,2]. Epoxy resins are thermoset polymers that are recognized for their tunable properties (adhesiveness, tensile and electrical strength, stiffness, heat and chemical resistance) and for their various industrial and domestic applications. Still, the main drawback of epoxy resin is its brittleness. Thus, the addition of functional vegetable oils, such as epoxidized linseed oil (ELO), can improve the toughness of epoxy resin, while increasing the bio-based content of the final materials [1]. The goal of this work is to study the influence of composition, cross-linking conditions, and addition of reinforcing agents on the properties of a bio-based epoxy resin, obtained from epoxidized linseed oil (ELO), and a commercial hardener. Nanocellulose from common sources (microcrystalline cellulose MC) and agro-industrial residues (plum seeds shells-SC) were used as fillers in the epoxy-systems. Epoxidized linseed oil (ELO, TRAQUISA, Barcelona, Spain), Epilox—Hardener H 10–30 (G) (NANOCHEM, București, Romania), microcrystalline cellulose (MC) (20 μm, Aldrich, St. Louis, MO, USA) and plum seed cellulose (SC) (laboratory obtained via acidic hydrolysis) were used as raw materials. A 2/1 weight ratio of ELO/G was used to obtain the cross-linked materials. Two types of cellulosic modifiers, MC and SC, were used to reinforce the epoxy systems. The resulted epoxy composite systems were characterized by means of FT-IR, TGA, DMA and water contact angle analysis. TGA analysis showed that the onset and maximum degradation temperatures were increased upon employing an extra cross-linking step at 140 °C or by addition of the cellulosic fillers. Moreover, an increase in the storage modulus of the final epoxy systems was attained as a result of the addition of cellulosic filler, as seen in the DMA results. The addition of a low-weight percentage (0.5%) of cellulose modifiers (MC and SC) enhanced the thermal stability of the epoxy system and had a reinforcing effect by increasing the storage modulus of the final materials.

Published

2022

4. The Potential of Biopolyesters as Plasticizers for Polylactide

Author

Marius Stelian Popa, Elena Ruxandra Radu, Denis Mihaela Panaitescu, Augusta Raluca Gabor, Cristian Andi Nicolae, Monica Florentina Raduly, and Adriana Nicoleta Frone

Subjects

polyesters, poly(lactic acid), blends, ductility, Chemistry, QD1-999

Abstract

It is estimated that fossil fuel resources will dwindle by the end of 2050 if the current utilization rate persists [...]

Published

2022

5. Preparation of Transparent and Antireflective Silica Thin Coatings on Plastic Substrates by Sol-Gel Process

Author

Raluca Manea, Violeta Purcar, Valentin Rădițoiu, Alina Rădițoiu, Monica Florentina Raduly, Georgiana Cornelia Ispas, Adriana Frone, Cristian Andi Nicolae, and Luminița Eugenia Wagner

Subjects

sol-gel, thin films, plastic substrate, wettability, General Works

Abstract

Due to their range of applications, from anti-icing to self-cleaning, low-adhesion, antibacterial. [...]

Published

2020

6. Iron Oxide/Phosphatic Materials Composites with Potential Applications in Environmental Protection

Author

Georgiana Cornelia Ispas, Raluca Manea, Roxana Ioana Brazdis, Anda Maria Baroi, Toma Fistos, Radu Claudiu Fierascu, and Monica Florentina Raduly

Subjects

iron oxide/phosphatic materials, analytical characterization, non-steroidal anti-inflammatory drugs removal, photodegradation of dyes, environmental protection, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

Currently, hydroxyapatite is probably the most researched material, due to its multiple applications in medical, environmental, or cultural heritage, when the classical structure is modified and calcium is displaced partially or totally with different metals. By changing the classical structure of the hydroxyapatite, new morphologies can be obtained, thus allowing final applications different from those of the initial hydroxyapatite material. However, their properties should be tuned for the desired application. In this context, the present paper describes the synthesis and characterization (through energy-dispersive X-ray fluorescence, X-ray diffraction, FTIR, thermal analysis, and transmission electron microscopy) of iron oxide/manganese-containing phosphatic phase composite materials, developed in order to obtain the enhancement of final environmental applications (photodegradation of dyes, adsorption of organic compounds). The composite material was tested for photocatalytic properties, after embedding in hydrosoluble film-forming materials. Photocatalytic coatings show different activity during the photodecomposition of Methylene Blue, used as a model of a contaminant. The photocatalytic activities of the materials were discussed in relationship with both the phosphatic materials and the magnetic components. Finally, other environmental applications were studied for the developed materials (adsorption of non-steroidal anti-inflammatory drugs—paracetamol and ibuprofen), revealing an enhancement of the adsorption capacity of the phosphatic material upon addition of the magnetic phase.

Published

2020

7. Preparation and Characterization of Highly Porous Cellulosic Foams for Biomedical Applications

Author

Elena-Ruxandra Radu, Denis Mihaela Panaitescu, Ioana Chiulan, Cristian Andi Nicolae, Raluca Augusta Gabor, Sorin Valentin Raditoiu, and Monica Florentina Raduly

Subjects

nanocellulose, foams, biomedical application, General Works

Abstract

Cellulose is the most abundant renewable biopolymer in nature, being the main constituent of [...]

Published

2019

8. Direct Hydrothermal Synthesis and Characterization of Zr–Ce-Incorporated SBA-15 Catalysts for the Pyrolysis Reaction of Algal Biomass

Author

Simona-Bianca Ghimiș, Florin Oancea, Monica-Florentina Raduly, Andreea-Luiza Mîrț, Bogdan Trică, Mihaela Cîlțea-Udrescu, and Gabriel Vasilievici

Subjects

mesoporous materials, microalgae, bio-oil, biochar, Technology

Abstract

In recent years, algae have emerged as a promising feedstock for biofuel production, due to their eco-friendly, sustainable, and renewable nature. Various methods, including chemical, biochemical, and thermochemical processes, are used to convert algal biomass into biofuels. Pyrolysis, a widely recognized thermochemical technique, involves high temperature and pressure to generate biochar and bio-oil from diverse algal sources. Various pyrolytic processes transform algal biomass into biochar and bio-oil, including low pyrolysis, fast pyrolysis, catalytic pyrolysis, microwave-assisted pyrolysis, and hydropyrolysis. These methods are utilized to convert a range of microalgae and cyanobacteria into biochar and bio-oil. In this publication, we will discuss catalytic pyrolysis using mesoporous materials, such as SBA-15. Mesoporous catalysts have earned significant attention for catalytic reactions, due to their high surface area, facilitating the better distribution of impregnated metal. Pyrolysis conducted in the presence of a mesoporous catalyst is viewed more as efficient, compared to reactions occurring within the smaller microporous cavities of traditional zeolites. SBA-15 supports with incorporated Zr and/or Ce were synthesized using the direct hydrothermal synthesis method. The catalyst was characterized using structural and morphological technical analysis and utilized for the pyrolysis reaction of the algal biomass.

Published

2024

9. Thermal behavior and thermo-mechanical properties of biocompatible poly(lactic acid)/allyl-POSS nanohybrids

Author

Adriana Nicoleta Frone, Dora Dominica Baciu, Marius Stelian Popa, Cristian Andi Nicolae, Augusta Raluca Gabor, Monica Florentina Raduly, Radu Claudiu Fierascu, and Denis Mihaela Panaitescu

Subjects

Physical and Theoretical Chemistry, Condensed Matter Physics

Published

2023

10. Sol–gel hybrid films based on organosilanes with long alkyl chains

Author

Violeta Purcar, Mihai Stoica, Simona Caprarescu, Valentin Rădiţoiu, Monica Florentina Raduly, Alina Rădiţoiu, Raluca Manea, Adriana Nicoleta Frone, Raluca Somoghi, Mihai Anastasescu, Elvira Alexandrescu, Luminiţa Eugenia Wagner, and Georgiana Cornelia Ispas

Subjects

chemistry.chemical_classification, Materials science, technology, industry, and agriculture, 02 engineering and technology, Surfaces and Interfaces, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Microstructure, 01 natural sciences, Silane, 0104 chemical sciences, Surfaces, Coatings and Films, Contact angle, chemistry.chemical_compound, Colloid and Surface Chemistry, Chemical engineering, chemistry, lipids (amino acids, peptides, and proteins), Wetting, Thin film, Fourier transform infrared spectroscopy, 0210 nano-technology, Alkyl, Sol-gel

Abstract

In this paper, we report the synthesis of different silica materials via the acid-catalyzed sol–gel process at room temperature (25°C), using silane precursors with various alkyl chains (dimethyl, octyl and/or hexadecyl), in order to obtain thin films with anti-reflective and hydrophobic properties. Chemical, optical and structural properties of obtained silica materials were thoroughly characterized with various techniques such as FTIR and UV–Vis spectroscopy, AFM analysis, ellipsometric measurements, ESEM and TEM microscopy. Wettability of thin films was evaluated by water contact angle measurements. FTIR spectra of silica materials revealed that the intensity of the Si–O–Si characteristic bands varies depending on the precursor type. From AFM results, we found that the obtained films present a different microstructure as a function of the silica sol formulations. The hydrophobic character of the thin films increases with increasing the length of the hydrophobic chains following the order: dimethyl

Published

2020

11. Antireflective coating based on TiO2 nanoparticles modified with coupling agents via acid-catalyzed sol-gel method

Author

Simona Caprarescu, Valentin Rădiţoiu, Adriana Nicoleta Frone, Cristian Andi Nicolae, Raluca Augusta Gabor, Mihai Anastasescu, Monica Florentina Raduly, Violeta Purcar, Anca Dumitru, and Alina Rădiţoiu

Subjects

Thermogravimetric analysis, Materials science, General Physics and Astronomy, Chemical modification, 02 engineering and technology, Surfaces and Interfaces, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Silane, 0104 chemical sciences, Surfaces, Coatings and Films, law.invention, Contact angle, chemistry.chemical_compound, Anti-reflective coating, Chemical engineering, chemistry, law, Wetting, Thin film, 0210 nano-technology, Sol-gel

Abstract

TiO2 – based materials were synthesized via acid-catalyzed sol-gel method using tetraethoxysilane (TEOS) and/or methyltriethoxysilane (MTES) - as silane coupling agents. The physical and chemical properties of the obtained TiO2 – based materials were characterized through FT-IR and UV–Vis spectroscopy, TGA, AFM analysis and contact angle measurements. FT-IR spectra demonstrated that the silane coupling agents react via a cross-link and covalently bond on the TiO2 surface. TGA analysis of samples was used to investigate the effect of addition of silane precursor into the TiO2 matrix. Diffuse reflectance spectra revealed that the addition of silane agents improved the antireflective properties of obtained thin films. Water contact angle of TiO2 - based materials showed that the wettability of the thin films was influenced by the addition of TEOS and/or MTES during the modification process. AFM images showed smooth surfaces (RMS roughness up to 3 nm) but with morphological peculiarities depending on the chemical modification, with TEOS, MTES or both, of the TiO2 parental matrix. Transparent and hydrophobic coatings were obtained with MTES addition in the modification process of TiO2 nanoparticles via acid-catalyzed sol-gel method.

Published

2019

12. Photocatalytic Degradation of Some Polyolefin-TiO2 Composites Evaluated by Molecular Spectroscopy

Author

Luminita Eugenia Wagner, Alina Raditoiu, Monica Florentina Raduly, and Valentin Raditoiu

Subjects

chemistry.chemical_compound, Materials science, Polymers and Plastics, Chemical engineering, chemistry, Mechanics of Materials, Materials Chemistry, General Chemistry, Molecular spectroscopy, Photocatalytic degradation, Polyolefin

Abstract

The photochemical degradation of polyolefin-TiO2 composite films was investigated and described in relationship with the concentration of photocatalyst and after different exposure times. UV-Vis-NIR and IR spectra reveal the presence of various degradation products, which are in direct connection with the photodecomposition mechanism. Various ratios between the absorbance of some typical IR characteristic bands can lead to the evaluation of photocomposition of polyethylene and polypropylene composite films containing TiO2 nanoparticles.The results show that the photocatalytic degradation of composites is significantly faster than the simple photolytic decomposition of pure polypropylene and polyethylene and could be used as a solution for the destruction of this type of wastes.

Published

2019

13. Preparation of Transparent and Antireflective Silica Thin Coatings on Plastic Substrates by Sol-Gel Process

Author

Valentin Rădițoiu, Georgiana Cornelia Ispas, Monica Florentina Raduly, Raluca Manea, Violeta Purcar, Alina Rădițoiu, Cristian Andi Nicolae, Adriana Nicoleta Frone, and Luminița Eugenia Wagner

Subjects

Range (particle radiation), Materials science, wettability, lcsh:A, law.invention, plastic substrate, Anti-reflective coating, thin films, Chemical engineering, law, sol-gel, Wetting, lcsh:General Works, Thin film, human activities, Sol-gel

Abstract

Due to their range of applications, from anti-icing to self-cleaning, low-adhesion, antibacterial. [...]

Published

2020

14. Iron Oxide/Phosphatic Materials Composites with Potential Applications in Environmental Protection

Author

Roxana Ioana Brazdis, Georgiana Cornelia Ispas, Monica Florentina Raduly, Raluca Manea, Toma Fistos, Radu Claudiu Fierascu, and Anda Maria Baroi

Subjects

Materials science, photodegradation of dyes, Iron oxide, Context (language use), 02 engineering and technology, 010402 general chemistry, 01 natural sciences, lcsh:Technology, Article, chemistry.chemical_compound, Adsorption, analytical characterization, non-steroidal anti-inflammatory drugs removal, Phase (matter), General Materials Science, Composite material, Photodegradation, Thermal analysis, lcsh:Microscopy, environmental protection, lcsh:QC120-168.85, iron oxide/phosphatic materials, lcsh:QH201-278.5, lcsh:T, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Characterization (materials science), chemistry, lcsh:TA1-2040, Photocatalysis, lcsh:Descriptive and experimental mechanics, lcsh:Electrical engineering. Electronics. Nuclear engineering, 0210 nano-technology, lcsh:Engineering (General). Civil engineering (General), lcsh:TK1-9971

Abstract

Currently, hydroxyapatite is probably the most researched material, due to its multiple applications in medical, environmental, or cultural heritage, when the classical structure is modified and calcium is displaced partially or totally with different metals. By changing the classical structure of the hydroxyapatite, new morphologies can be obtained, thus allowing final applications different from those of the initial hydroxyapatite material. However, their properties should be tuned for the desired application. In this context, the present paper describes the synthesis and characterization (through energy-dispersive X-ray fluorescence, X-ray diffraction, FTIR, thermal analysis, and transmission electron microscopy) of iron oxide/manganese-containing phosphatic phase composite materials, developed in order to obtain the enhancement of final environmental applications (photodegradation of dyes, adsorption of organic compounds). The composite material was tested for photocatalytic properties, after embedding in hydrosoluble film-forming materials. Photocatalytic coatings show different activity during the photodecomposition of Methylene Blue, used as a model of a contaminant. The photocatalytic activities of the materials were discussed in relationship with both the phosphatic materials and the magnetic components. Finally, other environmental applications were studied for the developed materials (adsorption of non-steroidal anti-inflammatory drugs&mdash, paracetamol and ibuprofen), revealing an enhancement of the adsorption capacity of the phosphatic material upon addition of the magnetic phase.

Published

2020

15. Analytical Characterization and Potential Antimicrobial and Photocatalytic Applications of Metal-Substituted Hydroxyapatite Materials

Author

Raluca Somoghi, Alina Raditoiu, Monica Florentina Raduly, Cristian Andi Nicolae, Radu Claudiu Fierascu, Irina Fierascu, Bogdan Trica, Lia-Mara Ditu, and Valentin Raditoiu

Subjects

Diffraction, Chemistry, 010401 analytical chemistry, Biochemistry (medical), Clinical Biochemistry, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Biochemistry, Fluorescence, 0104 chemical sciences, Analytical Chemistry, Characterization (materials science), Metal, stomatognathic system, Transmission electron microscopy, visual_art, Electrochemistry, visual_art.visual_art_medium, Photocatalysis, Hydroxyapatites, 0210 nano-technology, Thermal analysis, Spectroscopy, Nuclear chemistry

Abstract

Four metal substituted hydroxyapatites (HAPs) were prepared and characterized using energy-dispersive X-ray fluorescence, X-ray diffraction, thermal analysis, and transmission electron microscopy. ...

Published

2018

16. Facile Synthesis of Curcumin and Curcuminoid-like Derivatives at Microwaves

Author

Luminita Eugenia Wagner, Alina Raditoiu, Valentin Raditoiu, Gabriela Ailiesei Darvaru, Viorica Amariutei, and Monica Florentina Raduly

Subjects

Process equipment, Materials Science (miscellaneous), Process Chemistry and Technology, General Engineering, General Chemistry, General Medicine, 010402 general chemistry, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Petrochemistry, Materials Chemistry, Curcumin, Organic chemistry, Curcuminoid, General Pharmacology, Toxicology and Pharmaceutics

Abstract

Seven curcumin derivatives were synthesized by an ecological method, in a microwave field. The compounds obtained were purified and characterized by means of elemental analysis, UV-VIS, fluorescence, IR, 1H-NMR and 13C-NMR spectroscopy. Structure-property relationship in the b-diketone derivatives are discussed with respect to the structure and nature of the substituents for possible applications in optical sensors and luminescent materials.

Published

2018

17. Luminescent Hybrid Materials Based on Curcumin Derivatives Embedded in Palygorskite

Author

Alina Raditoiu, Cristian Andi Nicolae, Viorica Amariutei, Luminita Eugenia Wagner, Monica Florentina Raduly, and Valentin Raditoiu

Subjects

Materials science, Polymers and Plastics, Palygorskite, General Chemistry, chemistry.chemical_compound, chemistry, Chemical engineering, Mechanics of Materials, Materials Chemistry, Curcumin, medicine, Luminescence, Hybrid material, medicine.drug

Abstract

The seven curcumin derivatives were deposited on palygorskite in order to obtain hybrid materials. The fluorescence emission spectra of the obtained materials show a decrease in fluorescence intensity relative to the respective dyes, due to the environments around the dyestuff molecules created in the host matrices. Absorption studies show the best adsorption on the inorganic matrix, for the compounds with the hydroxyl groups. Correlating fluorescence spectra of hybrid materials with the results for absorption spectra of the dyes adsorbtion on the surface of the clay lead to the conclusion that a high percentage of the adsorbed dye had the effect of fluorescence quenching. Thus, it was confirmed that the fluorescent properties of hybrid materials depend on the interactions established between the fluorescent dyestuff and the inorganic network.

Published

2018

18. Influence of TEMPO oxidation on the properties of ethylene glycol methyl ether acrylate grafted cellulose sponges

Author

Elena-Ruxandra Radu, Sorin Vizireanu, Bogdan Biţă, Valentin Rădiţoiu, Vera Sătulu, Raluca Augusta Gabor, Monica Florentina Raduly, Ioana Chiulan, Cristian Andi Nicolae, and Denis Mihaela Panaitescu

Subjects

Ethylene Glycol, Absorption of water, Polymers and Plastics, Oxidized cellulose, Nanofibers, Ether, Cyclic N-Oxides, chemistry.chemical_compound, Spectroscopy, Fourier Transform Infrared, Materials Chemistry, Cellulose, Oxidized, Cellulose, Acrylate, Chemistry, Photoelectron Spectroscopy, Organic Chemistry, Water, Grafting, Acrylates, Chemical engineering, Nanofiber, Hydrophobic and Hydrophilic Interactions, Oxidation-Reduction, Porosity, Ethylene glycol

Abstract

In this study, cellulose nanofibers (CNF) obtained via high-pressure microfluidization were 2,6,6-tetra-methylpiperidine-1-oxyl (TEMPO) oxidized (TOCNF) in order to facilitate the grafting of ethylene glycol methyl ether acrylate (EGA). FTIR and XPS analyses revealed a more efficient grafting of EGA oligomers on the surface of TOCNF as compared to the original CNF. As a result, a consistent covering of the TOCNF fibers with EGA oligomers, an increased hydrophobicity and a reduction in porosity were noticed for TOCNF-EGA. However, the swelling ratio of TOCNF-EGA was similar to that of original CNF grafted with EGA and higher than that of TOCNF, because the higher amount of grafted EGA onto oxidized cellulose and the looser structure reduced the contacts between the fibrils and increased the absorption of water. All these results corroborated with a good cytocompatibility and compression strength recommend TOCNF-EGA for applications in regenerative medicine.

Published

2021

19. Preparation and Characterization of Highly Porous Cellulosic Foams for Biomedical Applications

Author

Denis Mihaela Panaitescu, Raluca Augusta Gabor, Cristian Andi Nicolae, Sorin Valentin Raditoiu, Ioana Chiulan, Monica Florentina Raduly, and Elena-Ruxandra Radu

Subjects

Materials science, Polymer science, lcsh:A, foams, engineering.material, Nanocellulose, Characterization (materials science), chemistry.chemical_compound, chemistry, Cellulosic ethanol, Highly porous, engineering, biomedical application, Biopolymer, Cellulose, lcsh:General Works, nanocellulose

Abstract

Cellulose is the most abundant renewable biopolymer in nature, being the main constituent of [...]

Published

2019

20. Optical and structural dynamical behavior of Crystal Violet Lactone – Phenolphthalein binary thermochromic systems

Author

Alina Raditoiu, Viorica Amariutei, Cristian Andi Nicolae, Valentin Raditoiu, Monica Florentina Raduly, and Luminita Eugenia Wagner

Subjects

Thermochromism, Materials science, Process Chemistry and Technology, General Chemical Engineering, Analytical chemistry, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Phenolphthalein, chemistry.chemical_compound, Hysteresis, Differential scanning calorimetry, Crystal violet lactone, chemistry, Diffuse reflection, 0210 nano-technology, Thermal analysis, Stoichiometry

Abstract

Several binary composites based on Crystal Violet Lactone (CVL) color former and Phenolphthalein (PPht) developing agent dissolved in 1-tetradecanol (TD) were studied in order to determine how different ratios between components influence the thermochromic behavior of the composites. The color dependence on temperature was investigated in direct relationship with structural changes and interactions between components. The stoichiometry of the colored complex was determined from diffuse reflectance data and confirmed by means of steady state fluorescence measurements and temperature modulated differential scanning calorimetry. The color former: developing agent molar ratio equal to 1:2.5 was determined to ensure the reversibility of the process in optimal conditions. The characteristics of the color path and the influence of thermal history during thermochromic transition were analyzed from the variations of CIELAB color parameters during successive heating/cooling cycles. Dynamic colorimetric properties of the thermochromic binary composite containing the components in optimum ratio are described by four characteristic temperatures in the hysteresis.

Published

2016

21. Photocatalytic Behavior of Water-Based Styrene-Acrylic Coatings Containing TiO2 Sensitized with Metal-Phthalocyanine Tetracarboxylic Acids

Author

Alina Raditoiu, Valentin Raditoiu, Mihai Anastasescu, Viorica Amariutei, Ioana Cătălina Gîfu, and Monica Florentina Raduly

Subjects

Materials science, 02 engineering and technology, engineering.material, phthalocyanines, 010402 general chemistry, Photochemistry, 01 natural sciences, Styrene, photocatalysts, chemistry.chemical_compound, Coating, Materials Chemistry, Photodegradation, LED light, titanium dioxide, waterborne coatings, Surfaces and Interfaces, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Surfaces, Coatings and Films, chemistry, lcsh:TA1-2040, Titanium dioxide, Phthalocyanine, engineering, Photocatalysis, 0210 nano-technology, lcsh:Engineering (General). Civil engineering (General), Methylene blue, Visible spectrum

Abstract

The study presents the results regarding the photocatalytic behavior of some water-based styrene-acrylic coatings containing TiO2 nanoparticles sensitized with metal-phthalocyanine tetracarboxylic acids. Coating materials have been studied in terms of color characteristics, photocatalytic behavior, and resistance to self-degradation depending on the structure of phthalocyanine sensitizers. Coatings that were exposed to Xenon light showed degradation of the organic sensitizer rather than of the binder. Photocatalytic tests using methylene blue as a standard contaminant indicated that the coating containing TiO2 nanoparticles sensitized with Fe(III) phthalocyanine tetracarboxylic acids showed the highest efficiency both in ultraviolet or visible light. In this case, the UV light induced a photodegradation rate that was greatly increased of about fifty times comparatively with that induced by LED light and was determined by two different mechanisms, but side reactions like methylene blue and sensitizer self destruction are possible to occur simultaneously. Photocatalytic materials of this type are suitable to be used as decorative coatings especially for indoor applications.

Published

2017