Your search keyword '"CASTOR oil"' showing total 5,222 results

1. Cellulose/castor oil‐based polyurethane film composite for aqueous Cd and Pb adsorption: Evaluation using laser‐induced breakdown spectroscopy.

Author

Iqhrammullah, Muhammad, Suyanto, Hery, Rahmi, Rahmi, Fahrurrozi, Patra, Aldi, and Abdulmadjid, Syahrun Nur

Subjects

TOLUENE diisocyanate, LASER spectroscopy, ND-YAG lasers, CASTOR oil, WOOD products, LASER-induced breakdown spectroscopy

Abstract

Castor oil‐based polyurethane has been researched for its utility in heavy metal adsorption. To improve the adsorptive performance, the polymer can be incorporated with cellulose—a renewable and widely available biopolymer. The aim of this research was to synthesize a film composite prepared from castor oil‐based polyurethane and cellulose for adsorptive removal of aqueous Cd and Pb. One‐shoot synthesis method was employed by mixing cellulose filler with castor oil and toluene diisocyanate (TDI). Characterization was carried out by FT‐IR, SEM, TGA, DSC, and contact angle analyses. Batch adsorption was carried out for the Cd and Pb with variations in contact time and initial pH, before analyzed for the adsorptive performance using 1064 nm Nd:YAG laser spectroscopy. The resulted adsorbents had improved thermal stability, and lower hydrophobicity. Adsorption of Pb and Cd increased 2 and 35 times after the addition of 0.1 g cellulose, respectively. Batch adsorption test revealed that the optimum conditions are 120‐min contact time and pH of 9 and 7 (for Cd and Pb, respectively). In conclusion, incorporation of cellulose could modify the characteristics of castor oil‐based polyurethane film and improve the adsorption of Cd and Pb. [ABSTRACT FROM AUTHOR]

Published

2024

2. Preparation and properties of solvent induced biodegradable thermosetting poly (siloxane urethane).

Author

Zhang, Hao, Qi, Xi, Zhang, Xiaoyu, Liu, Yujie, Li, Ning, Zeng, Fanglei, Jiang, Shengling, and Ding, Jianning

Subjects

CASTOR oil, TOLUENE diisocyanate, WASTE recycling, TENSILE strength, URETHANE

Abstract

It is difficult to recycle classic thermosetting plastics. Although some of them can be reprocessed, the mechanical properties decline linearly after processing. In addition, most thermosetting plastics are not environmentally friendly and difficult to degrade, resulting in a lot of pollution and limiting their practical application potential. In this paper, the prepolymer is synthesized by using castor oil (CO), hydroxyl terminated polydimethylsiloxane (PDMS‐OH), and toluene diisocyanate (TDI). Using 4,4'‐diaminodiphenyl disulfide (ODD) as a chain extender with dynamic disulfide bond and aniline (An) as a blocking agent, polysiloxane‐aminoester (SiCPUO) with recyclable function under DMF induction was prepared. The effect of the amount of rigid chain extender (ODD) containing disulfide bond on the properties of SiCPUO was studied, its heat resistance will first increase and then decrease with the increase of ODD content, especially the mechanical properties are more obvious, this trend has never been reported before; the mechanical properties and recyclability of SiCPUO are tested, and the comprehensive performance of SiCPUO2 is the best, the tensile strength is 0.84 MPa and the elongation at break was 65.81%; the solubility test of different solvents showed that it has recyclability, recovery rate is 95%;the material has self‐healing function, the repair efficiency is up to 95%. [ABSTRACT FROM AUTHOR]

Published

2024

3. Antidiarrheal, anti‐inflammatory and antioxidant effects of Anethum graveolens L. fruit extract on castor oil‐induced diarrhea in rats.

Author

Brinsi, Chirine, Jedidi, Saber, Sammari, Houcem, Selmi, Houcine, and Sebai, Hichem

Subjects

*CASTOR oil, *FRUIT extracts, *GASTRIC mucosa, *DILL, *ALKALINE phosphatase, *ELLAGIC acid

Abstract

Background: Between food and medicine, nutraceuticals are widely used in human health for the prevention and treatment of various diseases. This study aims to determine the cytoprotective effects of Anethum gravelons fruit extract (AGFAE) on castor oil‐induced diarrhea in rats due to its phytochemical and antioxidant properties. Methods: Male rats were divided into six groups of six animals each: Control (C), Castor oil (CO), CO + different doses of AGFAE (50, 100, and 200 mg/kg, b.w., p.o.), and the CO + loperamide group (LOP, 10 mg/kg, b.w., p.o.). Key Results: In vitro, the chemical composition of aqueous Dill fruit extract showed strong antioxidant activity, with a high content of total polyphenols, flavonoids, and tannins. In our in vivo studies, pre‐treatment with AGFAE reduced malondialdehyde and hydrogen peroxide levels and maintained normal activity of enzymatic and non‐enzymatic antioxidants in the gastric and intestinal mucosa. In addition, we found that AGFAE prophylaxis improved the stability of many plasma biochemical parameters altered by castor oil intoxication, such as C‐reactive protein concentrations and alkaline phosphatase activities. Conclusions & Inferences: We suggest that AGFAE phenolic compounds had significant protection against diarrhea involving several mechanisms such as reducing hypersecretion, peristaltic, inflammation, and preserving the endogenous antioxidant levels. [ABSTRACT FROM AUTHOR]

Published

2024

4. Multiple comparisons of acetylene black–based rigid composite electrodes: comprehensive evaluation of chemical properties and electrochemical sensing potentialities.

Author

da Silva, Rafael, da Silva Catunda, Lucas Gomes, and Buoro, Rafael Martos

Subjects

*EMERGING contaminants, *CARBON electrodes, *CARBON-black, *CHEMICAL properties, *MULTIPLE comparisons (Statistics), *CASTOR oil

Abstract

We report the comparison of multiple acetylene black (AB) rigid carbon composites for electrochemical purposes exploring several binders, including one (polyurethane) from a renewable source of castor oil. The acetylene black–based composites presented less roughness and increased surface homogeneity evinced by AFM and SEM images within the micrometer range. Contact angle analysis and Raman spectra confirmed a high degree of surface functionalization associated with structural defects on AB even when the base conductive material is associated with a non-conductive binder. The acetylene black-castor oil electrode presented superior performance (lower resistance to charge transfer and increased peak currents) when compared to its graphite counterparts regardless of the mechanical activation. The proposed electrode presented an excellent electrochemical performance in analyzing contaminants of emerging concern when compared to glassy carbon electrodes. The sustainable aspect of this work is evinced considering the room temperature synthesis, low cost of the AB, and renewable castor oil binder source. [ABSTRACT FROM AUTHOR]

Published

2024

5. Influence of coconut and castor oil coating on engine intake non-woven filter performance.

Author

Nallathambi, Gobi, Akasaperumal, Rajalekshmi, and Robert, Berly

Subjects

CASTOR oil, PRESSURE drop (Fluid dynamics), PARTICULATE matter, COCONUT oil, DIESEL motors

Abstract

Purpose: This research focuses on the development and characterization of oil-wetted spun-bonded polypropylene (PP) non-woven filters for improved air intake systems in automobiles. The study aims to enhance engine performance, durability, fuel economy and emission reduction by addressing key aspects such as contaminants filtration efficiency, loading capacity, pressure drop, temperature performance and longevity. Design/methodology/approach: The research methodology involves the utilization of textile fabrics, particularly oil-wetted spun-bonded PP non-woven filters, renowned for their effective particle collection capability from intake air. Experiments were conducted using a Box–Behnken design with three variables – oil concentration, areal density and dust quantity – each at three different levels to establish correlations with the filter's dust holding capacity (DHC) and pressure drop. Findings: The findings indicate that immersing particles in oil-coated medium significantly enhances the filter's DHC. Notably, castor oil as a coating demonstrates remarkable results, with a 97.53% increase in DHC and a high particulate matter filtration efficiency of 94.12%. Originality/value: This study contributes to the originality of research by emphasizing the importance of oil density in determining the filter's DHC and filtration efficiency. Furthermore, it highlights the superiority of castor oil over coconut oil-coated filter media, advancing air intake and/or filter systems for automotive engines. [ABSTRACT FROM AUTHOR]

Published

2024

6. Effect of castor oil on esophageal stricture in rats and expression of ST-2, neopterin proteins in corrosive burn model.

Author

Kalyoncu Aycenk, Aybegum, Yalcin, Onur, Yapar Gumus, Ceren, Korkmaz, Ozge Kaya, Gurpinar, Ahmet Burak, Noyan, Tevfik, and Kasko Arici, Yeliz

Subjects

*ACUTE phase reaction, *CASTOR oil, *TOPICAL drug administration, *NEOPTERIN, *INTERLEUKIN-33

Abstract

Corrosive esophageal burn (CEB) is a disease with high mortality and morbidity rates. The aim of this study was to determine the efficacy of castor oil, in preventing stricture development at the experimental CEB model. In addition to studying standard histopathological damage data, neopterin, IL-33, and ST-2 proteins were also studied for the first time. Fifty Wistar-Albino rats were divided into randomized 5 groups. [Sham group (G1) (n:10), Control group (G2) (n:10), Early Stage Topical Application group (G3)(n:10), Late Stage Topical Application group (G4) (n:10), Oral Application group (G5) (n:10)]. Weight measurement, esophageal length, histopathological damage score (HDS) and total stenosis score (TSS), tissue caspase-3 and VEGF staining, tissue hydroxyproline (HYP), blood TNF-alpha, IL-6, IL-33, Neopterin, and ST-2 levels were measured. In the castor oil application groups, weight gain was observed, the acute phase reaction decreased, submucosal/tunica muscularis fibrosis (TMF) and muscularis mucosal damage (MMD) were reduced, and TSS and HDS decreased. While no significant difference was detected in the ST-2 protein, which was used for the first time in this study model, a significant increase in neopterin protein was observed in the application groups. Results indicate the nutritional contribution of castor oil, as well as its tissue healing and esophageal stricture-preventing efficacy at histopathological and immune-histochemical levels. [ABSTRACT FROM AUTHOR]

Published

2024

7. Contents list.

Subjects

*INORGANIC chemistry, *OXYGEN evolution reactions, *COPPER, *CASTOR oil, *PHONON scattering, *COBALT compounds, *TRANSITION metal complexes, *SOLVENT extraction, *CARBENE synthesis

Abstract

The document is a contents list for the journal "Dalton Transactions: An International Journal of Inorganic Chemistry," published by The Royal Society of Chemistry. It includes various articles on topics such as metal bonding, luminescence changes, nanocomposites, and catalysis. The journal aims to connect the world with the chemical sciences and invest profits back into the chemistry community. [Extracted from the article]

Published

2024

8. Bioactive Ag(I) coordination complexes as dopants for castor oil plasticized ethylcellulose films.

Author

Scarpelli, Francesca, Crispini, Alessandra, Aiello, Iolinda, Godbert, Nicolas, Marchetti, Fabio, Xhafa, Sonila, De Filpo, Giovanni, Baratta, Mariafrancesca, Berardi, Riccardo, Alfano, Pasquale, and Giorno, Eugenia

Subjects

*ACTIVE food packaging, *CASTOR oil, *MOLECULAR crystals, *MOLECULAR structure, *PACKAGING materials, *IMIDAZOLES

Abstract

The effects exerted by new bioactive acylpyrazolonate Ag(I) derivatives of the general formula [Ag(QPy,CF3)(R-Im)] containing different substituents on the imidazole (R-Im) ancillary ligands and the natural plasticizer castor oil when both are added to the ethylcellulose (EC) biopolymer in the preparation of thin films as potential active food packaging materials are presented. The Ag(I) complexes [Ag(QPy,CF3)(Bn-Im)] and [Ag(QPy,CF3)(Bu-Im)], having benzyl and butyl substituents, whose single crystal molecular structures are reported, have proved to be highly compatible for efficient incorporation between the EC polymer and the hydrophobic plasticizer chains, giving rise, even at low concentrations, to homogeneous, robust and elastic films. The concomitant presence of these Ag(I) complexes and castor oil in the polymer EC matrix gives rise to thin films with improved antibacterial activity against Escherichia coli (E. coli) as a model of Gram-negative bacterial strains when compared to the non-plasticized ones, with very low Ag(I) migration in the three food simulants used (distilled water, ethanol 10% v/v and acetic acid 3% v/v) under two assay conditions (70 °C for 2 h and 40 °C for 10 days). [ABSTRACT FROM AUTHOR]

Published

2024

9. Synthesis of polymeric microcapsules filled with castor oil to enhance tribological properties in epoxy resin.

Author

Fernandes, Mariza, Souza, Juliana, Santos, Ana Leticia, Medeiros, Pamella, Bomio, Mauricio, and Costa, Maria

Subjects

*CASTOR oil, *FOURIER transform infrared spectroscopy, *SCANNING electron microscopes, *COMPOSITE materials, *CHEMICAL properties

Abstract

The addition of microcapsules (MCs) to a polymer matrix has been gaining attention because it facilitates the attainment of composite materials with better mechanical, chemical and functional properties that enhance its tribological properties. In this work, poly (urea formaldehyde) (PUF) microcapsules filled with castor oil were synthesized using an in situ polymerization method and then added to the epoxy matrix at mass percentages of 2.5%, 5% and 10%. Spherical microcapsules were obtained with the desired composition, confirmed by Fourier transform infrared spectroscopy (FTIR) and scanning electron microscope (SEM) images. The surface of the composites was analyzed using the roughness parameters Ra, Rq, Rz, Rsk and Rku. The preliminary tribological properties were evaluated using tests with a pin-on-disk configuration. After the tribological tests, the wear track was characterized using SEM images. There was a reduction of approximately 50% in the coefficient of friction of the composites studied and the specimen with 2.5% microcapsules had the best self-lubricating performance, considering the characterizations of roughness and track sinking. [ABSTRACT FROM AUTHOR]

Published

2024

10. Brønsted acid functionalized melamine-supported porphyrin trimer for one-step synthesis of alkyl-12-hydroxyoctadecanoate under irradiation of LED light.

Author

Deshmukh, Shubham Avinash, Mataghare, Bhairav Chandroday, Patil, Vijay Shivaji, Raut, Subodh Uttamrao, Balinge, Kamlesh Rudreshwar, Yadav, Piyush Radheshyam, Maske, Rutuja Ganesh, Patle, Dipesh S., and Bhagat, Pundlik Rambhau

Abstract

Biodiesel obtained from castor oil is considered a green renewable resource and is an admirable substitute for petro-based diesel, which originated from non-renewable energy sources. In this investigation, the transformation of castor oil to alkyl-12-hydroxyoctadecanoate, biodiesel was attained using a separable and reusable heterogeneous Brønsted acid functionalized melamine-supported porphyrin trimer photocatalyst (BAFMsPPc). This BAFMsPPc was scrutinized by using NMR, FT-IR, and SEM/EDAX. Moreover, a UV-visible spectrophotometer was employed for measuring the optical band gap (1.15 eV) and Hammett acidity (H0=0.74). The ethyl-12-hydroxyoctadecanoate was acquired using 15 mg of BAFMsPPc photocatalyst under the luminance of visible light (5W/9W/12W) in a home-made photoreactor consisting of a temperature sensor and controller. The ethyl-12-hydroxyoctadecanoate was evidenced by 1H, 13C NMR. Furthermore, BAFMsPPc photocatalyst was competent for the simultaneous reduction and transesterification of castor oil to produce alkyl-12-hydroxyoctadecanoate under irradiation of visible light by means of formic acid as a hydrogen source and validated by 1H and 13C NMR. The direct conversion of castor oil to alkyl-12-hydroxyoctadecanoate by simultaneous transesterification and reduction beneath optimized conditions in the presence of photocatalyst and formic acid is the most feasible method. Moreover, the gram-scale reaction succeeded to get ethyl-12-hydroxyoctadecanoate under optimized conditions. The ethyl-12-hydroxyoctadecanoate was blended with commercial diesel at 10 and 15% (v/v), exhibiting comparable cetane no. of 10% blended sample with the marketed diesel sample. Furthermore, the recyclability and stability of BAFMsPPc were confirmed by Fourier transform-infrared red spectroscopy and nuclear magnetic resonance after the 6th run obeying the principle of green chemistry supporting environmentally benign procedure. [ABSTRACT FROM AUTHOR]

Published

2024

11. Influence of castor oil‐derived bio‐resin on mechanical and visco‐elastic properties of dynamic covalent imine bond based epoxy and its composite.

Author

Sankar Lal, Sathyaraj and Kannan, Sekar

Subjects

*THERMOSETTING composites, *SCANNING electron microscopes, *THERMOMECHANICAL properties of metals, *IMPACT strength, *FIBROUS composites, *CASTOR oil

Abstract

Highlights The widespread use of thermoset composites has raised significant environmental and economic concerns due to their non‐recyclable nature. This study addresses these issues by developing vitrimers and their composites featuring dynamic imine bonds synthesized from vanillin, 3,3′‐dimethyl‐4,4′‐diaminodicyclohexylmethane, and epoxy. To enhance toughness and bio‐content in the vitrimer and its composites, a green reactive monomer, epoxy methyl ricinoleate (EMR), was synthesized via the transesterification of epoxidized castor oil (ECO) and incorporated as the reactive diluent. The effect of EMR on bio‐resin mechanical, thermo‐mechanical, and relaxation times (τ) of the vitrimer was examined. The inclusion of EMR reduced the relaxation time, indicating improved dynamic bond exchange efficiency. EMR incorporation decreased the relaxation time, suggesting enhanced efficiency in the interchange of dynamic bonds. In addition, the incorporation of 20% EMR increased the impact strength of the epoxy vitrimer by 37.8%. The study also details the manufacturing and characterization of greener composites made with these vitrimers and flax fabric, which were evaluated for various mechanical and thermo‐mechanical properties. Morphological analysis using a scanning electron microscope revealed good interfacial adhesion between the fiber and matrix. Furthermore, the flax fiber vitrimer‐based composite demonstrated effective chemical recyclability. The results indicate that these composites possess mechanical and thermal‐mechanical properties well‐suited for lightweight engineering applications. Recyclable vitrimers were developed from vanillin and epoxy. Toughness and bio‐content were enhanced by adding EMR. Relaxation time was reduced by EMR, improving bond exchange efficiency. Epoxy vitrimer impact strength was increased by 37.8% with 20% EMR. Green composites with vitrimers and flax fabric were manufactured. [ABSTRACT FROM AUTHOR]

Published

2024

12. Leveraging conventional and natural solvents: physical extraction of 4-hydroxybenzoic acid.

Author

Yadav, Vishnu P. and Chandrakar, Anil Kumar

Subjects

*CASTOR oil, *SOLVENT extraction, *REAL estate business, *XYLENE, *SOLVENTS

Abstract

The demand of 4-hydroxybenzoic acid (4-HBA) has increased due to their promising properties in the various industries such as pharmaceutical, cosmetic, and plastic sectors. Mostly 0.005 to 0.035 mol/liter of 4-HBA was observed in the waste stream or fermentation broth. Hence, this work presents a schematic study of 4-HBA separation from the aqueous phase by physical extraction method using conventional and natural solvents (CANS). The harmless and eco-friendly green solvents such as alsi (flaxseed) oil, castor oil, and conventional solvents such as diethyl carbonate, diethyl succinate, and xylene are employed in the extraction experiments. Several parameters, such as the KDHBA, %EHBA, PHBA, and the DHBA, were examined. The parameters were examined to evaluate the equilibrium for this physical extraction experiment. The obtained results showed the following trend of KDHBA and %EHBA, respectively, diethyl carbonate (0.951, 48.75%) > alsi oil (0.565, 36.12%) > diethyl succinate (0.504, 33.51%) > castor oil (0.457, 31.35%). > xylene (0.283, 22.06%). [ABSTRACT FROM AUTHOR]

Published

2024

13. Advancing Food Packaging: Exploring Cyto-Toxicity of Shape Memory Polyurethanes.

Author

Veloso-Fernández, Antonio, Laza, José Manuel, Ruiz-Rubio, Leire, Martín, Ane, Benito-Vicente, Asier, Martín, Cesar, and Vilas-Vilela, José Luis

Subjects

*HEXAMETHYLENE diisocyanate, *DYNAMIC mechanical analysis, *CASTOR oil, *TOLUENE diisocyanate, *DIFFERENTIAL scanning calorimetry, *POLYURETHANE elastomers, *ISOCYANATES

Abstract

Cytotoxicity is a critical parameter for materials intended for biological applications, such as food packaging. Shape-memory polyurethanes (SMPUs) have garnered significant interest due to their versatile properties and adaptability in synthesis. However, their suitability for biological applications is limited by the use of aromatic isocyanates, such as methylene diphenyl 4,4′-diisocyanate (MDI) and toluene diisocyanate (TDI), which are commonly used in SMPU synthesis but can generate carcinogenic compounds upon degradation. In this study, thermo-responsive shape-memory polyurethanes (SMPUs) were synthesized using poly(tetramethylene ether) glycol (PTMG) and castor oil (CO) as a chain extender with four different isocyanates—aromatic (MDI and TDI), aliphatic (hexamethylene diisocyanate [HDI] and isophorone diisocyanate [IPDI])—to evaluate their impact on polyurethane cytotoxicity. Cytotoxicity assays were conducted on the synthesized SMPU samples before and after exposure to light-induced degradation. The results showed that prior to degradation, all samples exhibited cell proliferation rates above 90%. However, after degradation, the SMPUs containing aromatic isocyanates demonstrated a drastic reduction in cell proliferation to values below 10%, whereas the samples with aliphatic isocyanates maintained cell proliferation above 70%. Subsequently, the influence of polyol chain length was assessed using PTMG, with molecular weights of 1000, 650, and 250 g·mol−1. The results indicated that the SMPUs with longer chain lengths exhibited higher cell proliferation rates both before and after degradation. The thermal and mechanical properties of the SMPUs were further characterized using thermogravimetric analysis (TGA), differential scanning calorimetry (DSC), dynamic mechanical analysis (DMA), and thermomechanical analysis (TMA), providing comprehensive insights into the behavior of these materials. [ABSTRACT FROM AUTHOR]

Published

2024

14. Research on the castor oil pressing extraction mechanism based on multi‐physics coupling simulation.

Author

Shu, Can, Yang, Liu, Xu, Zilong, Wu, Junfeng, Chen, Huan, Cui, Bo, Wang, Zhicheng, Xiao, Xuan, Song, Shaoyun, and Zhang, Yonglin

Subjects

*FINITE element method, *POROSITY, *COMPUTER simulation, *SPEED, *PETROLEUM

Abstract

Castor oil has been widely used in various fields due to its properties, leading to large attention for its extraction mechanism. To research the castor oil extraction mechanism during pressing, a self‐developed uniaxial compression device combined with an in situ observation is established. The effects of pressure, loading speed, and creep time are investigated, and a finite element model coupling with multi‐physics is established for castor oil pressing extraction, verified by the seed cake experimental compression strain matching with numerical simulation under the same condition. Simulation results indicated that the pressing oil extraction process can be divided into two stages, Darcy's speed shows the first sharp decreasing stage and the second gradual increasing stage during porosity and pressure interaction. In the first stage, porosity is dominant on Darcy's speed. With porosity decreasing, the pressure effect on Darcy's speed exceeds porosity in the second stage. With seed thickness increasing, Darcy's speed first increases and then decreases. With loading speed increasing, Darcy's speed increases. Darcy's speed decreases constantly with creep time increasing. This study can provide basic theoretical and practical guidance for oil extraction. [ABSTRACT FROM AUTHOR]

Published

2024

15. Non-traditional vegetable oil-based isocyanate-free polyurethane: a short review.

Author

Maheshwari, Pooja, Mistry, Mansi, and Dholakiya, Bharatkumar Z.

Subjects

*VEGETABLE oils, *LINSEED oil, *CASTOR oil, *EVIDENCE gaps, *OILSEEDS, *LIGNINS

Abstract

The conventional use of polyurethane in various applications is hindered by significant challenges, such as toxicity concerns, moisture sensitivity, and environmental impact. In response, there has been a notable surge in research focusing on bio-based alternatives, particularly non-isocyanate polyurethanes (NIPUs), aligning with sustainable development objectives. NIPUs offer a promising solution by eliminating the need for isocyanates, employing cyclic carbonates and diamines instead. Out of various sources available, non-traditional vegetable oils present a viable starting material for cyclic carbonate synthesis due to their availability, renewability, and affordability. However, despite the growing interest in NIPUs, there remains a scarcity of literature on the utilization of non-traditional oils for their development. This short review aims to fill this gap by providing an overview of bio-based NIPUs synthesized from non-traditional vegetable oils such as jatropha oil, castor oil, lignin oil, linseed oil, and rubber seed oil. The review covers the synthesis methods of NIPUs via polyaddition reactions of carbonates and amines, detailing properties, advantages, and applications of each oil-based NIPU. Furthermore, by identifying research gaps and proposing potential solutions, this paper aims to encourage researchers to consider non-traditional oils for NIPU synthesis, facilitating significant advancements in the field. [ABSTRACT FROM AUTHOR]

Published

2024

16. Synthesis and properties of reed-based polyurethane (PU) coating.

Author

Wu, Ruiying, Chen, Meng, Zhang, Wenjing, Yang, Wenqing, Bai, Libin, and Huo, Li

Subjects

CASTOR oil, AGRICULTURAL wastes, BIOMASS liquefaction, CONTACT angle, HYDROPHOBIC interactions

Abstract

The reuse of agricultural waste and the development of bio-based materials are the main strategies for solving the global energy crisis and environmental problems. Agricultural waste reeds containing natural nano-silica (SiO2) were liquefied with PEG-400, Castor oil, and acid to produce reed-based polyols (R–P). The result shows that the liquefied product is a polyol with a hydroxyl value of 171 mgKOH/g, a viscosity of 1.221 Pa S, the number average molecular weight (Mn) of 1.202 kg/mol. Then reed-based two-component polyurethane emulsion (R-T-PU) and reed-based one-component waterborne polyurethane emulsion (R-O-WPU) with good glossiness and excellent mechanical properties were prepared. Because of the natural nano-SiO2 in reed and castor oil, the coatings exhibit excellent mechanical properties and hydrophobicity. The results show that the series of reed-based polyurethane has excellent mechanical properties, a maximum hardness of 6H, good hydrophobic effect, a maximum contact angle of 109°, high thermal stability, and a maximum initial decomposition temperature can reach 299.1 °C. Therefore, the environmental protection bio-based polyurethane coating with excellent properties can be prepared with the reed, which is expected to replace fossil resources. It provides an experimental basis for the high-added-value utilization of reed. [ABSTRACT FROM AUTHOR]

Published

2024

17. Synergetic inhibitory effect of isopropyl methylphenol-based agents on biofilm formation by Streptococcus mutans.

Author

Korenaga, Arisu, Miyaoka, Toshiki, Asami, Harumi, Yamagami, Yasushi, Yoshii, Miki, Tanaka, Shigemitsu, and Nagao, Toshihiro

Subjects

*CASTOR oil, *DENTAL caries, *DENTAL plaque, *ORAL diseases, *TOOTH loss, *BIOFILMS, *STREPTOCOCCUS mutans

Abstract

Dental caries and periodontitis are the most common oral diseases in humans and the main causes of tooth loss. Streptococcus mutans is primarily responsible for dental caries and dental plaque, which are triggered by biofilm formation on the tooth surface. In this study, biofilm inhibition by 4-isopropyl-3-methylphenol (IPMP)-based agents, consisting of IPMP and polyoxyethylene-hydrogenated castor oil (POEHCO), was investigated in vitro. Notably, the use of POEHCO in addition to IPMP inhibited S. mutans biofilms more drastically than IPMP alone. Moreover, the effects of IPMP on the expression of biofilm-related genes (gtfB, gtfC, and gtfD) were examined using quantitative real-time PCR. IPMP at sub-minimum inhibitory concentrations significantly downregulated the expression of these genes. These results suggested that the inhibitory effects on biofilm formation were synergistically enhanced by the surfactant and antibiofilm activities of IPMP. Therefore, IPMP-based agents as dentifrices may be useful to prevent oral diseases originating from biofilms. [ABSTRACT FROM AUTHOR]

Published

2024

18. Chemical Profiling and Antioxidant, Anti-Inflammatory, Cytotoxic, Analgesic, and Antidiarrheal Activities from the Seeds of Commonly Available Red Grape (Vitis vinifera L.).

Author

Hossain, Md. Jamal, Lema, Khadija Rahman, Samadd, Md Abdus, Aktar, Rumi, Rashid, Mohammad A., and Al-Mansur, Muhammad Abdullah

Subjects

*DRUG discovery, *BUTYLATED hydroxytoluene, *ASPIRIN, *CASTOR oil, *GRAPE seeds, *VITIS vinifera

Abstract

Objectives: The current study aimed to conduct a phytochemical screening of commonly known fruit red grape (Vitis vinifera L.) seed methanolic extract through gas chromatography and mass spectrometry (GC-MS) to identify the bioactive compounds responsible for its health benefits and evaluate the pharmacological potentialities of the extract and its fractions against oxidation, inflammation, pain, and diarrhea. Methods: The in vitro antioxidant, anti-inflammatory, and cytotoxic characteristics of methanolic extracts and various solvent fractions of V. vinifera were evaluated using the DPPH free radical scavenging assay, membrane stabilizing, and brine shrimp lethality bioassay. Furthermore, the study assessed the effects of crude extracts (200, 400, and 600 mg/kg of body weight) on pain relief and reduction of diarrhea in animals using methods such as tail immersion, the acetic acid-induced writhing technique, and a diarrheal mouse model induced with castor oil. Results: A total of 73 phytoconstituents were predominantly found in the seed extract based on the GC-MS analysis. Among the identified compounds, 9-octadecenamide (13.7%), and (9E,11E)-octadeca-9,11-dienoate (11.07%) are most abundant. Several notable constituents, such as gamma-sitosterol, stigmasterol, paromomycin, 4,6-cholestadienol, gamma-tocotrienol, 24-Propylidenecholest-5-en-3beta-ol, and alpha-tocopherol acetate, are also present. The methanolic extract of V. vinifera seed and its different solvent fractions showed promising antioxidant properties (IC50 = 1.19-17.42 µg/mL) compared to the standard antioxidant butylated hydroxytoluene (IC50 = 20.46 µg/mL). Aqueous soluble fraction exerted inhibition of nearly 50% heat-induced hemolysis compared to the standard acetylsalicylic acid (42%). Besides, all the tested doses (200, 400, and 600 mg/kg bw) of the crude extract showed significant (P <.05) analgesic and antidiarrheal effects. Conclusion: The current findings endorsed the health benefits of V. vinifera by revealing potent antioxidant, anti-inflammatory, analgesic, and antidiarrheal effects. Nevertheless, further in-depth analysis of the plant's chemical constituents and pharmacological effects on health is warranted for novel drug discovery from V. vinifera. [ABSTRACT FROM AUTHOR]

Published

2024

19. Advancements in Castor Oil‐Derived Smart Materials: A Comprehensive Mini‐Review.

Author

Mukherjee, Chandrapaul, Nath, Aashika R., Jaisankar, Sellamuthu N., and Sarkar, Jit

Subjects

*SMART materials, *DRUG delivery systems, *SOFT robotics, *POLYMERIZATION, *NANOSTRUCTURED materials, *CASTOR oil, *SHAPE memory polymers

Abstract

Smart materials encompass a class of materials capable of reorienting themselves in response to external stimuli (heat, light, and chemical), and generate smart properties such as self‐healing (SH) and shape‐memory (SM), etc. Recently, castor oil has emerged as a bio‐renewable feedstock facilitating the synthesis of smart polymers such as polyurethanes and epoxidized castor oil (CO)‐based polymers. Furthermore, fillers and nanomaterials have been added to prepare responsive materials (SH and SM) and drug delivery systems. This review delves into the recent developments in CO‐based smart materials since 2015 under thermal, photo, and chemical stimuli and their applications in coating, adhesive, soft robotics, and drug delivery. Additionally, the challenges and future scopes for the development of castor oil‐based advanced smart materials have been discussed. [ABSTRACT FROM AUTHOR]

Published

2024

20. A sustainable bioprocess technology for producing food-flavour (+)-γ-decalactone from castor oil-derived ricinoleic acid using enzymatic activity of Candida parapsilosis: Scale-up optimization and purification using novel composite.

Author

Syed, Naziya, Singh, Suman, Chaturvedi, Shivani, Kumar, Prashant, Kumar, Deepak, Jain, Abhinav, Sharma, Praveen Kumar, Nannaware, Ashween Deepak, Chanotiya, Chandan Singh, Bhambure, Rahul, Kumar, Pankaj, Kalra, Alok, and Rout, Prasant Kumar

Subjects

*CASTOR oil, *BIOTECHNOLOGY, *MICROBIAL cells, *BIOCONVERSION, *FOOD industry

Abstract

Ricinoleic acid (RA) from castor oil was employed in biotransformation of peach-flavoured γ-decalactone (GDL), using a Candida parapsilosis strain (MTCC13027) which was isolated from waste of pineapple crown base. Using four variables—pH, cell density, amount of RA, and temperature—the biotransformation parameters were optimized using RSM and BBD. Under optimized conditions (pH 6, 10 % of microbial cells, 10 g/L RA at 28°C), the conversion was maximum and resulted to 80 % (+)-GDL (4.4 g/L/120 h) yield in shake flask (500 mL). Furthermore, optimization was achieved by adjusting the aeration and agitation parameters in a 3 L bioreactor, which were then replicated in a 10 L bioreactor to accurately determine the amount of (+)-GDL. In bioreactor condition, 4.7 g/L (>85 %) of (+)-GDL is produced with 20 % and 40 % dissolved oxygen (1.0 vvm) at 150 rpm in 72 h and 66 h, respectively. Further, a new Al-Mg-Ca-Si composite column-chromatography method is developed to purify enantiospecific (+)-GDL (99.9 %). This (+)-GDL is 100 % nature-identical as validated through 14C-radio-carbon dating. Thorough chemical investigation of enantiospecific (+)-GDL is authenticated for its use as flavour. This bioflavour has been developed through a cost-effective biotechnological process in response to the demand from the food industry on commercial scale. • Efficient Candida parapsilosis (MTCC 13027) strain produces (+)- γ -Decalactone (GDL). • Biotransformation parameters were optimized through RSM and Box Behnken Design. • (+)- γ -GDL is produced 4.4 g/L/120 h in shake-flask and 4.7 g/L/64 h in 10 L bioreactor. • Novel Al-Mg-Ca-Si composite produced to purify 99 % (+)- γ -GDL through Column. • (+)-GDL is identified 100 % biobased and safe for food-flavour application. [ABSTRACT FROM AUTHOR]

Published

2024

21. Effect of Pretreatment of Activated Carbon on Iron Oxide-Loaded Catalysts to Significantly Enhance Production of Sebacic Acid from Castor Oil.

Author

Zhang, Qingyun, Wang, Zhulin, Qin, Zhichao, Li, Binglin, and Guo, Zisheng

Subjects

*POISONS, *MANUFACTURING processes, *IRON catalysts, *ACTIVATED carbon, *CASTOR oil, CATALYSTS recycling

Abstract

This study explores the efficient conversion of castor oil to sebacic acid utilizing iron oxide (Fe2O3) loaded on activated carbons as catalysts. Through a combination of saponification, acidification, and catalytic cracking, sebacic acid was produced with a notable yield improvement. The process involved using liquid paraffin as a thinning agent, overcoming the limitations of traditional toxic agents. The catalysts were prepared via adsorption-precipitation-calcination methods, with ultrasonication pretreatment to enhance iron adsorption on activated carbons. The chemical composition, structure, and morphology properties were investigated by different characterizations; such as scanning electron microscopy (SEM), thermogravimetric analysis (TG/DTG). Systematic investigations into the adsorption capacity, catalytic activity, and operational parameters like temperature, reaction time, and catalyst recycling were conducted. The optimized method achieved a sebacic acid yield of 83.4%, significantly higher than traditional methods (60.2%), with improved safety and environmental impact. The study provides valuable insights into sustainable and efficient sebacic acid production which is crucial for industrial applications in processing of castor oil. [ABSTRACT FROM AUTHOR]

Published

2024

22. Metamaterial enhanced sensor for powder material classification.

Author

Zamel, Hany M., Abd El-Rahman, Sherine Ismail, and Attiya, Ahmed M.

Subjects

*NEEM oil, *METAMATERIALS, *CASTOR oil, *SUNFLOWER seed oil, *POWDERS, *DIELECTRIC waveguides, *SESAME oil

Abstract

In this paper, a simple and efficient approach is presented to classify different power materials based on a one port microwave sensor in X-band. This classification focuses on powder materials, unlike prior studies that focused on liquids (castor oil, neem oil, sunflower oil, sesame oil, and mahua oil), this classification represents a shift towards powdered materials. The response of the proposed sensor is enhanced by adding a metamaterial (MTM) unit cell of F-shape to focus electromagnetic waves on the sample under test. This metamaterial-based sensor is designed to differentiate between different types of materials based on the corresponding reflection coefficient. The sample under test is included inside a dielectric box inserted inside a rectangular waveguide. The MTM unit cell is added on the front face of this box towards the direction of the incident wave. The resonance frequency depends on the characteristics of the powder material inside the box. The MTM unit cell enhances this resonance to simplify the process of classification of different materials. The measured results show that the proposed sensor can detect a wide range of powder materials, including clay, cement, sand, and mixtures: cement & sand, and clay & sand. The designed sensor can be used in various applications, including detection and classification of different powder materials in industrial applications. [ABSTRACT FROM AUTHOR]

Published

2024

23. Carbonated castor oil as a bioplasticiser and toughening agent for bisphenol a based epoxy.

Author

Dhore, Nikhil, Kottaron, Amaya Othayoth, Palanisamy, Aruna, and Narayan, Ramanuj

Subjects

CASTOR oil, FLEXURAL modulus, HEXAMETHYLENEDIAMINE, IMPACT strength, CONTACT angle, EPOXY resins, DIAMINES, BISPHENOL A, POLYESTER fibers

Abstract

Diglycidyl ether of bisphenol A (DGEBA), a key intermediate for epoxy resins, provides strong adhesion, processability and the resulting thermoset boasts high cross linking density. However, the inherent brittleness and susceptibility to cracking restrict its advanced applications. To overcome these drawbacks, CO2 fixed cyclic carbonate from castor oil (CCO) was synthesized from epoxidised castor oil (ECO) and used in varying quantities as a toughening agent for amine cured DGEBA. Different amines have been utilized to cure the epoxy and to study the structure–property relationship by fixing the amount of CCO. The inclusion of 10% CCO resulted in improvement in the tensile strength, storage modulus, flexural modulus, and impact strength of the epoxy‐urethane hybrid. Moreover, the epoxy‐urethane networks had reduced cross linking density imparted by the fatty acid units of CCO and the presence of unreacted carbonate groups facilitated molecular movement, thereby contributing to energy dissipation during the deformation process. Further incorporation of the CCO lowers the mechanical properties of the hybrids due to a reduction in cross linking density. Trimethylolpropane tris[poly(propyleneglycol)amine terminated] ether cured system exhibited the highest thermal stability compared to hexamethylene diamine, isophorone diamine, and 4,7,10‐trioxa‐1,13 tridecanediamine. The Tg decreased as the CCO content increased, while the water contact angle increased. [ABSTRACT FROM AUTHOR]

Published

2024

24. Enhanced Topical Delivery Of Azelaic Acid Through Nanoemulsion Formulation: Optimization, Characterization, And Potential Therapeutic Application For Skin Disorders.

Author

Rahisuddin, Farooqui, Nasiruddin Ahmad, and Sharma, Dinesh Kumar

Subjects

CENTRIFUGATION, ZETA potential, SCANNING transmission electron microscopy, XANTHAN gum, RESPONSE surfaces (Statistics), TRANSMISSION electron microscopy, CASTOR oil

Abstract

Rapid connectivity homogenization and ultra-probe sonication were used to manufacture the Azelic acid nanoemulsion. Everything is dissolved in clean water: Azelic acid, polyvinyl alcohol, xanthan gum, castor oil, vitamin E, Transcutol P, and Tween 80. To optimize it, we used Response Surface Methodology and measured a bunch of parameters, like droplet size (nm), surface morphology (FE-SEM, TEM), zeta potential (ZP), differential scanning calorimetry (DSC), polydispersity index (PDI), stability, pH, and viscosity. Both the penetration and retention of the Azelic acid -loaded nanoemulsion into the skin and its release profile were studied in vitro and ex vivo, respectively. The model's quadratic polynomial fitness was confirmed by the optimization analysis of variance (ANOVA), which yielded a significant F-value and a p-value below 0.0500. It was also determined that the lack-of-fit was not statistically significant. Globule size was 200 nm, PDI was 0.2, and entrapment efficacy was 84.99% following optimization of the Azelic acid nanoemulsion. A value of - 35.90 mV was recorded for the Zeta Potential (ZP). The absence of chemical interactions was verified by the findings of FTIR, DSC, and XRD investigations, which demonstrated the effective trapping of Azelic acid. Results from scanning electron microscopy and transmission electron microscopy revealed the presence of small spherical particles in the enhanced formulation. Centrifugation, freezethaw cycles, and storage at 5°C and 25°C were all successfully completed by the sample in the stability tests. Storage at 40°C for 7 weeks resulted in subtle color shifts, most noticeably during the last week of the study. The results of the rheological tests showed that the revised recipe is elastic and May shear-thin and pseudo-plastic. Over the course of 12 hours, the Azelic acid nanoemulsion released 87.66 % and 97.99 of its active ingredient. A high degree of linearity was demonstrated by the sustained release pattern, which matched a zero-order kinetic model (R2 = 0. 0.9952). After 8 hours, the Azelic acid nanoemulsion had an ex vivo penetration rate of 82.24 %, indicating better skin distribution. Based on the results, Azelic acid nanoemulsion might be useful as a skin condition topical therapy. Nevertheless, further research, including studies conducted in living organisms, is necessary to prove that azelic acid nanoemulsion is both efficient and safe. [ABSTRACT FROM AUTHOR]

Published

2024

25. A Newly Validated HPLC-DAD Method for the Determination of Ricinoleic Acid (RA) in PLGA Nanocapsules.

Author

de Andrade, Lucas Rannier M., dos Santos, Larissa F., Pires, Débora S., Machado, Érika P., Martines, Marco Antonio U., Macedo, Maria Ligia R., Cardoso, Teófilo Fernando M., Severino, Patrícia, Souto, Eliana B., and Kassab, Najla M.

Subjects

*HIGH performance liquid chromatography, *CASTOR oil, *TRANSMISSION electron microscopy, *COMPLEX matrices, *ZETA potential, *NANOCAPSULES

Abstract

The assessment of ricinoleic acid (RA) incorporated into polymeric nanoparticles is a challenge that has not yet been explored. This bioactive compound, the main component of castor oil, has attracted attention in the pharmaceutical field for its valuable anti-inflammatory, antifungal, and antimicrobial properties. This work aims to develop a new and simple analytical method using high-performance liquid chromatography with diode-array detection (HPLC-DAD) for the identification and quantification of ricinoleic acid, with potential applicability in several other complex systems. The method was validated through analytical parameters, such as linearity, limit of detection and quantification, accuracy, precision, selectivity, and robustness. The physicochemical properties of the nanocapsules were characterized by dynamic light scattering (DLS) to determine their hydrodynamic mean diameter, polydispersity index (PDI), and zeta potential (ZP), via transmission electron microscopy (TEM) and quantifying the encapsulation efficiency. The proposed analytical method utilized a mobile phase consisting of a 65:35 ratio of acetonitrile to water, acidified with 1.5% phosphoric acid. It successfully depicted a symmetric peak of ricinoleic acid (retention time of 7.5 min) for both the standard and the RA present in the polymeric nanoparticles, enabling the quantification of the drug loaded into the nanocapsules. The nanocapsules containing ricinoleic acid (RA) exhibited an approximate size ranging from 309 nm to 441 nm, a PDI lower than 0.2, ζ values of approximately −30 mV, and high encapsulation efficiency (~99%). Overall, the developed HPLC-DAD procedure provides adequate confidence for the identification and quantification of ricinoleic acid in PLGA nanocapsules and other complex matrices. [ABSTRACT FROM AUTHOR]

Published

2024

26. Synthesis, photopolymerization and evaluation of electrical properties of epoxidized castor oil-based acrylates.

Author

Çayli, Gökhan, Cekli, Serap, and Uzunoğlu, Cengiz Polat

Subjects

*CASTOR oil, *NUCLEAR magnetic resonance, *RENEWABLE natural resources, *EPOXIDATION, *PHOTOPOLYMERIZATION

Abstract

In this study, synthesis, characterization and photopolymerization of new type of castor oil-based monomer family are studied. Electrical properties of the synthesized polymers are also evaluated. The synthesis of these materials consists of two steps. Acrylation of the castor oil and methyl ricinoleate occur in the first step and epoxidation is then followed. Epoxidized acrylated castor oil (EACO) and epoxidized acrylated methyl ricinoleate (EAMR) are synthesized at the end of the reactions. FTIR (Fourier transform infrared) and 1H NMR (nuclear magnetic resonance) spectroscopy techniques are used to characterize of the starting materials and monomers. When acrylate groups are introduced to castor oil and methyl ricinoleate, a characteristic peak at 1722 cm−1 is observed in FTIR spectrum and peaks of acrylate hydrogens at 5.7, 6.0 and 6.3 are observed in 1H NMR spectrum. After epoxidation, a small peak is detected at 840 cm−1 in FTIR spectrum and new peaks appear at 2.5 and 3.0 ppm in 1H NMR spectrum. Photopolymerization of the synthesized materials are performed with DMPA (2,2-dimethoxy-2-phenylacetophenone) and AIBN (azobisisobutyronitrile) catalyst. It is found that DMPA catalyst is more effective than AIBN. EACO samples' DC (direct current) resistance and conductance values are measured as 146.4 MΩm and 6.83 nS/m, respectively, whereas EAMR samples' DC resistance and conductance values are calculated as 96 MΩm and 10.42 nS/m, respectively. AC (alternative current) analysis is conducted by using LCR meter for the polymeric samples where EACO samples' capacitances varies from 4.88 to 3.29 pF (picofarads) with respect to frequency (10 Hz–300 kHZ). On the other hand, EAMR samples' capacitances varies from 14.7 to 6.49 pF with respect to frequency. Impedance values of the EACO samples with respect to frequency are measured as 4.24 GΩ and 165 kΩ, respectively. Impedance values of the EAMR samples with respect to frequency are measured as 1.19 GΩ and 82 kΩ, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

27. The challenge of cellulose nitrate-coated fabrics: molecular characterization of celluloid detachable collars and Fabrikoid.

Author

NEVES, ARTUR, FERREIRA, JOANA TOMÁS, FRIEDEL, ROBERT, and CALLAPEZ, MARIA ELVIRA

Abstract

Copyright of Conservar Património is the property of Associacao Profissional de Conservadores-Restauradores de Portugal and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

28. Novel Aromatic Estolide Esters from Biobased Resources by a Green Synthetic Approach.

Author

Tămaș, Andra, Bîtcan, Ioan, Nițu, Sabina, Paul, Cristina, Benea, Ioana Cristina, Rusu, Gerlinde Iuliana, Perot, Elline, Peter, Francisc, and Todea, Anamaria

Subjects

SUSTAINABLE chemistry, CASTOR oil, VEGETABLE oils, NUCLEAR magnetic resonance spectroscopy, POLYMERIZATION, CAFFEIC acid

Abstract

The use of vegetable oils and their derivatives for polymer synthesis has been a major focus in recent years due to their universal availability, low production costs and biodegradability. In this study, the enzymatic synthesis of oligoesters of ricinoleic acid obtained from castor oil combined with three aromatic natural derivatives (cinnamyl alcohol, sinapic acid, and caffeic acid) was investigated. The formation of the reaction products was demonstrated by FT-IR, MALDI-TOF MS and NMR spectroscopy and for the oligo (ricinoleyl)-caffeate the thermal properties and biodegradability in sweet water were analyzed and a rheological characterization was performed. The successful enzymatic synthesis of oligoesters from ricinoleic acid and aromatic monomers using lipases not only highlights the potential of biocatalysis in green chemistry but also contributes to the development of sustainable and biodegradable methods for synthesizing products with potential applications as cosmetic ingredients. [ABSTRACT FROM AUTHOR]

Published

2024

29. Microstrip Fed Complementary Spiral Sensor for Dielectric Characterization of Liquid Samples.

Author

Vincent, Sheeja, Mridula S., and Pradeep, Anju

Subjects

IMPEDANCE matching, LIQUID dielectrics, PERMITTIVITY, CASTOR oil, COCONUT oil

Abstract

Microstrip fed complementary spiral sensor (MFCSS) for dielectric characterization of liquid samples is proposed in this paper. The samples chosen are coconut oil, sunflower oil, palm oil, castor oil and paraffin. The sensor comprises a complementary spiral resonator embedded in a microstrip fed patch antenna. The resonant frequency of the sensor is 2.4GHz. The sensor is fabricated on FR4 substrate with dielectric constant 4.4, loss tangent 0.02 and thickness 1.6mm. The overall dimension of the sensor is 12.5mmx15mmx1.6mm. The compact size of the sensor is attributed to the complementary spiral resonator. The resonant frequency of the sensor shifts to a lower frequency when immersed in liquid samples. The shift in resonant frequency and reflection coefficient are used to determine the relative permittivity (εr) and loss tangent (tan δ) of liquid samples. The sensor exhibits capabilities in detecting trans fat content in coconut oil. Adulteration of oil samples can also be detected using this procedure as detailed in the paper. The MFCSS exhibits high near field, resulting in improved sensitivity (5.8%). The MFCSS offers precise measurement, the ability to detect minor variations in the dielectric properties of liquid samples, compact size and ease of fabrication. Microstrip feed provides good impedance matching to the sensor. [ABSTRACT FROM AUTHOR]

Published

2024

30. A controlled release antibiotic wound protectant gel formulated for use in austere environments.

Author

Florek, Charles A., Cozzone, Eric, Williams, Dustin L., and Armbruster, David A.

Subjects

CASTOR oil, SOY oil, THERMAL properties, RESORPTION (Physiology), WOUND infections

Abstract

Battlefield wounds are at high risk of infection due to gross contamination and delays in evacuation from forward‐deployed locations. The aim of this study was to formulate an antibiotic wound gel for application by a field medic in austere environments to protect traumatic wounds from infection during transport. Formulation development was conducted over multiple phases to meet temperature, handling, in vitro elution, and in vivo tissue response requirements. Thermal properties were evaluated by vial inversion, DSC, and syringe expression force in a temperature range of 4–49°C. Handling was evaluated by spreading onto blood‐contaminated tissue and irrigation resistance. Controlled antibiotic release was evaluated by a modified USP immersion cell dissolution method. Local tissue effects were evaluated in vivo by subcutaneous implantation in rats for 7 and 28 days. An oleogel composition of cholesterol, hydrogenated castor oil, soybean oil, and glyceryl monocaprylocaprate met the target performance criteria. Peak expression force from a 5 mL syringe at 4°C was 48.3 N, the dropping point temperature was 68°C, and the oleogel formulation could be spread onto blood‐contaminated tissue and resisted aqueous irrigation. The formulation demonstrated sustained release of tobramycin in PBS at 32°C for 5 days. Implantation in a rat dorsal pocket demonstrated a slight tissue reaction after 7 days with minimal to no reaction after 28 days, comparable to a commercial hemostat control. Material resorption was evident after 28 days. The formulation met target characteristics and is appropriate for further evaluation in a large animal contaminated blast wound model. [ABSTRACT FROM AUTHOR]

Published

2024

31. Effect of castor oil on esophageal stricture in rats and expression of ST-2, neopterin proteins in corrosive burn model

Author

Aybegum Kalyoncu Aycenk, Onur Yalcin, Ceren Yapar Gumus, Ozge Kaya Korkmaz, Ahmet Burak Gurpinar, Tevfik Noyan, and Yeliz Kasko Arici

Subjects

Corrosive esophageal burn, Esophageal stricture, Castor Oil, ST-2, IL-6, Neopterin, Medicine, Science

Abstract

Abstract Corrosive esophageal burn (CEB) is a disease with high mortality and morbidity rates. The aim of this study was to determine the efficacy of castor oil, in preventing stricture development at the experimental CEB model. In addition to studying standard histopathological damage data, neopterin, IL-33, and ST-2 proteins were also studied for the first time. Fifty Wistar-Albino rats were divided into randomized 5 groups. [Sham group (G1) (n:10), Control group (G2) (n:10), Early Stage Topical Application group (G3)(n:10), Late Stage Topical Application group (G4) (n:10), Oral Application group (G5) (n:10)]. Weight measurement, esophageal length, histopathological damage score (HDS) and total stenosis score (TSS), tissue caspase-3 and VEGF staining, tissue hydroxyproline (HYP), blood TNF-alpha, IL-6, IL-33, Neopterin, and ST-2 levels were measured. In the castor oil application groups, weight gain was observed, the acute phase reaction decreased, submucosal/tunica muscularis fibrosis (TMF) and muscularis mucosal damage (MMD) were reduced, and TSS and HDS decreased. While no significant difference was detected in the ST-2 protein, which was used for the first time in this study model, a significant increase in neopterin protein was observed in the application groups. Results indicate the nutritional contribution of castor oil, as well as its tissue healing and esophageal stricture-preventing efficacy at histopathological and immune-histochemical levels.

Published

2024

32. Polyurethane-polyisocyanurate (PUR-PIR) foams based on castor oil modified with tire rubber waste: Statistical-based analysis

Author

Saboia, Matheus Marciano, da Silva, Andressa Ilidia Calheiros, Monteceli, Francisco Maciel, Sampaio, Nilo Antonio de Souza, da Conceicao, Monique Osorio Talarico, and Mulinari, Daniella Regina

Subjects

Isocyanates, Polyurethanes, Castor oil, Polyols, Rubber, Engineering and manufacturing industries, Science and technology

Abstract

This study explores the utilization of bio-polyol, derived from castor oil modified with waste tire rubber (WTR), in the synthesis of rigid polyurethane-polyisocyanurate foams. Two WTR concentrations (10% and 20%) were incorporated, investigating their impact on foaming, cellular structure, and various foam properties. Response surface methodology assessed the influence of polyol/isocyanate ratios and WTR content on thermal, physical, and mechanical responses. Results indicated significant effects of polyol/isocyanate ratios on thermal and density properties, while WTR content exhibited an opposite trend. Mechanical behavior showed a distinct pattern compared to thermal and physical aspects, suggesting no conclusive correlation between compressive stress variability and polyol/ isocyanate ratio or WTR content. Consequently, the application of these foams depends on specific property requirements, highlighting the potential of sustainable bio-polyols and recycled WTR in replacing conventional petroleum-based counterparts in polyurethane foam production. Highlights * Development of rigid polyurethane-polyisocyanurate foams based on castor oil. * Polyurethane-polyisocyanurate foams modified with waste tire rubber. * Increased isocyanate index impacts thermal stability and density. * Response surface methodology showed variability in compressive stress behavior and the polyol/isocyanate ratio. * For application of polyurethane-polyisocyanurate foams will depend on the desired properties. KEYWORDS castor oil, response surface methodology, rigid polyurethane-polyisocyanurate foams, tire rubber waste, 1 | INTRODUCTION Improper disposal of solid waste is one of the main environmental problems currently faced. (1) With the increase in population and consumption, the amount of waste generated [...]

Published

2024

33. Effect of Botanicals against Callosobruchus chinensis in Stored Chickpea

Author

Moodsuguna, Rathod, P K, Murthy, Jasti Sri Vishnu, Undirwade, D B, and Satpute, N S

Published

2024

34. Optimization of Cellulose Nanofibers and Castor Oil in the Synthesis of Starch-carrageenan-polyvinyl Alcohol Bio-thermoplastic Film

Author

Ni Luh Yulianti, Bambang Admadi Harsojuwono, Ida Bagus Putu Gunadnya, and I. Wayan Arnata

Subjects

scpva bio-thermoplastic film, cellulose nanofiber, castor oil, Environmental sciences, GE1-350, Analytical chemistry, QD71-142

Abstract

The improvement of the properties of starch, carrageenan, and polyvinyl alcohol (SCPVA) bio-thermoplastics film is necessary be used as packaging materials that comply with SNI 7818:2014 and international standards. The aim of this research is to optimize the concentration of cellulose nanofiber and castor oil in the synthesis of SCPVA bio-thermoplastic film; so that, the best characteristics are obtained and SNI 7818:2014 and international standards are met. Optimization was carried out using the Response Surface Methodology (RSM) application with the independent variable (input control variable) concentration of cellulose nanofiber and castor oil with the dependent variable (response variable) tensile strength, elongation at break, and Young Modulus. SCPVA bio-thermoplastic film with an optimal concentration of cellulose nanofiber and castor oil was observed for swelling, WVTR, surface profile, functional group content, thermal stability, and crystallinity by reviewing X-ray diffraction intensity. The research results showed that the optimum concentrations of cellulose nanofiber and castor oil in the synthesis of SCPVA bio-thermoplastic film are 6.05% and 0.96%, respectively. The tensile strength, elongation at break and Young's modulus values of the resulting optimum treatment are 37.21 MPa, 4.347% and 1041.86 MPa, respectively. Hence, with optimization, the SCPVA bio-thermoplastic film has the highest tensile strength and Young's modulus values but the lowest elongation at break values. The physical and mechanical characteristics of SCPVA bio-thermoplastic film have met SNI 7818:2014 and most of ASTM 5336, therefore, it can be used as packaging.

Published

2024

35. Investigation of bio-based rigid polyurethane foams synthesized with lignin and castor oil

Author

Hyeon Jeong Kim, Xuanjun Jin, and Joon Weon Choi

Subjects

Lignin, Castor oil, Polyurethane foam, Bio-based, Medicine, Science

Abstract

Abstract In this study, polyurethane (PU) foams were manufactured using kraft lignin and castor oil as bio-based polyols by replacing 5–20 wt% and 10–100 wt% of conventional polyol, respectively. To investigate the effects of unmodified bio-based polyols on PU foam production, reactivity and morphology within PU composites was analyzed as well as mechanical and thermal properties of the resulting foams. Bio-based PU foam production was carried out after characterizing the reagents used in the foaming process (including hydroxyl group content, molecular weight distribution, and viscosity). To compare the resulting bio-based PU foams, control foam were produced without any bio-based polyol under the same experimental conditions. For lignin-incorporated PU foams, two types, LPU and lpu, were manufactured with index ratio of 1.01 and 1.3, respectively. The compressive strength of LPU foams increased with lignin content from 5 wt% (LPU5: 147 kPa) to 20 wt% (LPU20: 207 kPa), although it remained lower than that of the control foam (PU0: 326 kPa). Similarly, the compressive strength of lpu foams was lower than that of the control foam (pu0: 441 kPa), with values of 164 kPa (lpu5), 163 kPa (lpu10), 167 kPa (lpu15), and 147 kPa (lpu20). At 10 wt% lignin content, both foams (LPU10 and lpu10) exhibited the smallest and most homogenous pore sizes and structures. For castor oil-incorporated PU foams with an index of 1.01, denoted as CPU, increasing castor oil content resulted in larger cell sizes and void fractions, transitioning to an open-cell structure and decreasing the compressive strength of the foams from 284 kPa (CPU10) to 23 kPa (CPU100). Fourier transform infrared (FT-IR) results indicated the formation of characteristic urethane linkages in PU foams and confirmed that bio-based polyols were less reactive with isocyanate compared to traditional polyol. Thermogravimetric analysis (TGA) showed that incorporating lignin and castor oil affected the thermal decomposition behavior. The thermal stability of lignin-incorporated PU foams improved as the lignin content increased with char yields increasing from 11.5 wt% (LPU5) to 15.8 wt% (LPU20) and from 12.4 wt% (lpu5) to 17.5 wt% (lpu20). Conversely, the addition of castor oil resulted in decreased thermal stability, with char yields decreasing from 10.6 wt% (CPU10) to 4.2 wt% (CPU100). This research provides a comprehensive understanding of PU foams incorporating unmodified biomass-derived polyols (lignin and castor oil), suggesting their potential for value-added utilization as bio-based products.

Published

2024

36. A Novel PAMAM G3 Dendrimer-Based Foam with Polyether Polyol and Castor Oil Components as Drug Delivery System into Cancer and Normal Cells.

Author

Zaręba, Magdalena, Chmiel-Szukiewicz, Elżbieta, Uram, Łukasz, Noga, Justyna, Rzepna, Magdalena, and Wołowiec, Stanisław

Subjects

*POROUS materials, *POLYAMIDOAMINE dendrimers, *CONTROLLED release drugs, *CASTOR oil, *DRUG delivery systems, *DENDRIMERS

Abstract

One of the intensively developed tools for cancer therapy is drug-releasing matrices. Polyamidoamine dendrimers (PAMAM) are commonly used as nanoparticles to increase the solubility, stability and retention of drugs in the human body. Most often, drugs are encapsulated in PAMAM cavities or covalently attached to their surface. However, there are no data on the use of PAMAM dendrimers as a component of porous matrices based on polyurethane foams for the controlled release of drugs and biologically active substances. Therefore, in this work, porous materials based on polyurethane foam with incorporated third-generation poly(amidoamine) dendrimers (PAMAM G3) were synthesized and characterized. Density, water uptake and morphology of foams were examined with SEM and XPS. The PAMAM was liquefied with polyether polyol (G441) and reacted with polymeric 4,4′-diphenylmethane diisocyanate (pMDI) in the presence of silicone, water and a catalyst to obtain foam (PF1). In selected compositions, the castor oil was added (PF2). Analogs without PAMAM G3 were also synthesized (F1 and F2, respectively). An SEM analysis of foams showed that they are composed of thin ribs/walls forming an interconnected network containing hollow bubbles/pores and showing some irregularities in the structure. Foam from a G3:G441:CO (PF2) composition is characterized by a more regular structure than the foam from the composition without castor oil. The encapsulation efficiency of drugs determined by the XPS method shows that it varies depending on the matrix and the drug and ranges from several to a dozen mass percent. In vitro biological studies with direct contact and extract assays indicated that the F2 matrix was highly biocompatible. Significant toxicity of dendrimeric matrices PF1 and PF2 containing 50% of PAMAM G3 was higher against human squamous carcinoma cells than human immortalized keratinocytes. The ability of the matrices to immobilize drugs was demonstrated in the example of perspective (Nimesulide, 8-Methoxypsolarene) or approved anticancer drugs (Doxorubicin—DOX, 5-Aminolevulinic acid). Release into the culture medium and penetration of DOX into the tested SCC-15 and HaCaT cells were also proved. The results show that further modification of the obtained matrices may lead to their use as drug delivery systems, e.g., for anticancer therapy. [ABSTRACT FROM AUTHOR]

Published

2024

37. Combustion Test for the Smallest Reciprocating Piston Internal Combustion Engine with HCCI on the Millimeter Scale.

Author

Shang, Huichao, Zhang, Li, Tang, Zhigang, Han, Jinlin, Wang, Yingzhang, and Zhang, Tao

Subjects

THERMODYNAMIC cycles, CASTOR oil, ENGINE testing, PISTONS, KEROSENE as fuel, INTERNAL combustion engines

Abstract

Micro reciprocating piston internal combustion engines are potentially desirable for high-energy density micro power sources. However, complex subsystem functions hinder the downsizing of reciprocating piston internal combustion engines. The homogeneous charge compression-ignition (HCCI) combustion mode requires no external ignition system; it contributes to structural simplification of the reciprocating piston internal combustion engines under a micro space constraint but has not been adequately verified at the millimeter scale. The study used a millimeter-scale HCCI reciprocating piston internal combustion engine fueled by a mixture of kerosene, ether, castor oil, and isopropyl nitrate for combustion investigation. The test engine with a displacement of 0.547 cc is the smallest reciprocating piston internal combustion engine known to have undergone in-cylinder combustion diagnosis. It is observed that the HCCI combustion mode at the millimeter scale can realize stable combustion with excellent cooperation for the thermodynamic cycle under appropriate structural and operating conditions, which is essentially not inferior to those in conventional-sized reciprocating piston internal combustion engines. This finding helps the next step of scaling down reciprocating piston internal combustion engines. [ABSTRACT FROM AUTHOR]

Published

2024

38. An investigation into the effect of various parameters on oil agglomeration process of coal fines.

Author

Mohanty, Pradeep Kumar, Jayanthu, Singam, Chakladar, Saswati, and Chakravarty, Sanchita

Subjects

*COAL mining, *CASTOR oil, *NONLINEAR regression, *TURPENTINE, *QUADRATIC equations

Abstract

In the present study, the authors have performed oil agglomeration of coal fines using castor oil and combination of castor oil and turpentine oil in various proportions. The coal samples were collected from three different mines of Mahanadi Coalfields Limited having high ash content (27–39%). From the post proximate analysis it was revealed that in case of Mine 1 coal, the moisture content reduced by 83%, for Mine 2 it was 94% and for Mine 3 the moisture reduced by 90% from the initial values. Grade achieved after oil agglomeration process was G5 grade for Mine 2 coal and G3 grade for Mine 1 & 2 coal. The effect of various parameters such as oil dosage, pulp density, pH, on yield, ash rejection and organic matter recovery were studied. The parameter with the highest relative importance was found to be oil dosage (normalized importance of 100%) whereas agitation time and pulp density were found to have normalized relative importance of 74% and 70%, respectively. A non-linear regression model in the form of quadratic equation has also been proposed for ash rejection (%) based on the independent variables such as pulp density, oil dosage and agitation time. [ABSTRACT FROM AUTHOR]

Published

2024

39. Green polyurethane foams: Replacing petrochemical polyol with castor oil through factorial design.

Author

Repecka Alves, Lucas, Miraveti Carriello, Giovanni, Manassés Pegoraro, Guilherme, Moraes, Carlos Eduardo, de Lourdes Rezende, Maira, and de Menezes, Aparecido Junior

Subjects

*VEGETABLE oils, *URETHANE foam, *THERMAL stability, *FACTORIAL experiment designs, *X-ray diffraction, *FOAM

Abstract

Polyurethanes are renowned for their incredible versatility. They are available in various forms, such as foams, thermoplastics, elastomers, and paints. These polymers are synthesized from two chemical substances: isocyanates and polyols. The increasing interest in the utilization of materials from renewable sources has spurred significant research in search of replacements for these two substances. For instance, castor oil can be used as a substitute for polyol, in addition to being an abundant renewable source. In this context, the objective of this study is to investigate how the variables temperature (2 °C, 24 °C, and 70 °C) and mass ratio (2:1, 1:1, and 1:2) influence the final properties of polyurethane foams. The foams were prepared using the one-shot method under controlled agitation. The results indicated that replacing polyol with vegetable oil was successful, as evidenced by the appearance of reference bands in the FTIR spectra. XRD and DSC analyses confirmed the amorphous nature of the polyurethanes, and TG tests demonstrated that a temperature of 70 °C significantly reduced the thermal stability of the foams, especially those based on vegetable sources. However, synthesis temperatures of 2 °C and 24 °C did not show considerable alteration in thermal stability. And the analysis of the effect of the sol fraction variables demonstrated that the polyol/isocyanate ratio has a significant effect, especially in vegetable-based foams. [ABSTRACT FROM AUTHOR]

Published

2024

40. Phytochemical Screening, GC-MS Analysis, and Evaluation of Antioxidants, Cytotoxicity, Analgesic, and Anti-Diarrheal Activity of the Extracts of the Leaves of Syzygium reticulatum Wight Walp.

Author

Das, Ananta Kumar, Sarkar, Uma Rani, Paul, Prosenjit, Hassan, Md. Jahid, Banik, Ratry, Das, Utpaul Chandra, Alam, Md. Khairul, Islam, Md. Nazmul, Mahmud, Md. Hasan, Shermily, Noushin, Al Mamun, Md., Tamal, Touhidur Rahman, and Hasan, Md. Ariful

Subjects

*ANTIDIARRHEALS, *PHENOLIC acids, *CYTOTOXINS, *OXIDANT status, *GAS chromatography/Mass spectrometry (GC-MS), *CASTOR oil, *SYZYGIUM

Abstract

Syzygium genus is extensively used in managing different diseases such as antimicrobial, antidiarrheal, antidiabetic, analgesic, anti-inflammatory, antioxidant, and anticancer activities. The present study aims to investigate phytochemicals by screening tests and GC-MS analysis and evaluate the antioxidants, cytotoxicity, analgesic, and anti-diarrheal activity of the extracts of the leaves of Syzygium reticulatum. The leaves of the S. reticulatum were extracted with hexane and methanol by the maceration process successively, denoted as SRH and SRM. The extract's phytochemical analyses found flavonoids, alkaloids, saponins, tannins, glycosides, and carbohydrates. The GC-MS analysis of the methanol extract identified 8 compounds. The major components were identified as Diisooctyl phthalate (96.903 %), 2-methyltetracosane (1.094 %), and others with fewer amounts. The result of the antioxidant study of the extracts as total phenolic content of SRH 8.92 ± 0.62 and SRM 340.107 ± 11.11 mg/g, respectively, total flavonoids content of SRH 7.85 ± 0.71 and SRM 105.16 ± 0.93 mg/g, IC50 values of the DPPH (2,2-diphenyl-1-picrylhydrazyl) free radical scavenging assay of SRM was 14.67 μg/mL, SRH was 41.26 μg/mL and ascorbic acid 14.08 μg/mL; the total antioxidant capacity of SRH was 21.33 ± 2.52 mg/g, whereas SRM was 353.71 ± 4.59 mg/g. The results of these studies suggest that methanol extract has a more potent antioxidant capacity than hexane extract. The methanol extract also exhibited higher toxicity (LC50 value 49.99 μg/mL) compared to hexane extract (LC50 value 370.348 μg/mL), as revealed by the Brine shrimp nauplii cytotoxic study. An analgesic study of the methanol extract found that a lower dose (250 mg/kg) has more significant analgesic activity than the higher dose and standard drug aspirin. At 90 min, the hot plate's highest percentage of latency elongation was 110.32, while the acetic acid-induced writhing inhibition was 63.04 %. At a dose of 500 mg/kg, the methanol extract also shown good efficacy in mice suffering from castor oil and magnesium sulfate-induced diarrhea. The findings from the study of the leaves of the S. reticulatum exhibited that methanol extracts have significant antioxidant, cytotoxic, analgesic, and anti-diarrheal activity. [ABSTRACT FROM AUTHOR]

Published

2024

41. Harnessing leather waste in polymer matrix for sustainable smart shape‐stable phase change materials.

Author

Sarkar, Jit, Samanta, Debasis, Chaudhuri, Saikat, Angeline, J., Kumari, K. G. Akshaya, and Jaisankar, Sellamuthu N.

Subjects

PHASE change materials, CASTOR oil, SHAPE memory polymers, POLYOLS, GLYCIDYL methacrylate, WASTE recycling, POLYMERS, LEATHER

Abstract

The utilization of leather waste (LW) in a polyurethane (PU) matrix makes a smart and novel shape stable phase change material (SSPCM). This is essential for sustainability as it reduces landfill waste after use. The PU is synthesized in bulk with a 90% yield, using biodegradable polycaprolactone diol and bio‐based polyol (castor oil), along with tolylene‐2,4‐diisocyanate. PL and PLG composites are prepared by blending of constituent components PU (P), LW (L), and poly(glycidyl methacrylate) (PGMA, G), as specified by their code names. Role of LW (hydrogen bonding and chemical crosslinking) and morphology are elucidated by FTIR and SEM, respectively. Self‐healing time (2 h), shape fixity ratios (Rf) (PL: 60–80% and PLG: 60–70%) and shape recovery ratios (Rr) (100% for both) are determined at 60°C. PLG displays faster shape recovery in water (<30 s) compared to air (>300 s). Shape stability and thermal properties of the SSPCM are examined using the temperature responsive leakage study, TGA, and DSC. This research introduces a new approach for using leather waste (LW) in SSPCM, with self‐healing and 100% Rr. This material may find application where SSPCM with high durability and flexibility is essential such as textile and footwear materials. [ABSTRACT FROM AUTHOR]

Published

2024

42. Synthesis and properties of waterborne polyurethane acrylate emulsions with high bio‐based content.

Author

Zhuang, Yu, Luo, Jiangyu, Duan, Xiaojun, Zhu, Yanan, and Qu, Jinqing

Subjects

ACRYLATES, POLYOLS, POLYURETHANES, EMULSIONS, CASTOR oil, DIFFERENTIAL scanning calorimetry, CONTACT angle

Abstract

The bio‐based hydrophilic monoglycerol succinate was synthesized and reacted with bio‐based raw materials including polyols, pentamethylene diisocyanate, 1,4‐butanediol, to prepare the waterborne polyurethane acrylate (Bio‐WPUA) emulsions with high bio‐based content. The effect of bio‐based polyol categories including poly(trimethylene ether glycol), poly(tetrahydrofuran), and castor oil on the properties of Bio‐WPUA and its films were studied. The structure, thermal stability, crystallinity, contact angle, and mechanical properties of Bio‐WPUA film were characterized with fourier infrared spectroscopy, thermogravimetric analysis, differential scanning calorimetry, X‐ray diffraction, contact angle analyzer, and mechanical tensile testing. It was found that Bio‐WPUA film containing poly(trimethylene ether glycol) as the soft‐segmented display good tensile stress, thermal stability, and water resistance with 1.38% of the water absorption rate, while Bio‐WPUA containing castor oil polyol as the soft‐segmented had good tensile strain and low‐temperature film‐forming properties with excellent film properties. The bio‐carbon content of Bio‐WPUA was high up to 40% according to ASTM D6866‐22, and possesses good physical mechanical and chemical resistance performance. The results provide theoretical guidance for the synthesis of polyurethane emulsions with bio‐based materials instead of petroleum‐based materials. [ABSTRACT FROM AUTHOR]

Published

2024

43. Research on seeds compression‐structural damage and castor oil extraction mechanism with in situ observation.

Author

Yang, Liu, Cui, Bo, Chen, Huan, Wu, Junfeng, Xu, Zilong, Xiao, Xuan, Wang, Zhicheng, Song, Shaoyun, and Zhang, Yonglin

Subjects

RENEWABLE energy sources, IN situ processing (Mining), OILSEEDS, SOLVENT extraction, SEED yield, CASTOR oil

Abstract

Castor oil has attracted large attention for wide applications, including lubrication oil and bioenergy resources. Castor seeds mechanical pressing is widely used for oil extraction. To better research castor seeds mechanical‐structural damage behavior and oil extraction mechanism during extrusion, a self‐developed mechanical pressing test setup combined with in situ observation is built for oil output behavior. Influencing factors of working pressure, speed, temperature and creep time on oil outflow were investigated. The results indicate that seeds squeezing extraction can be divided into three stages, preloading, oil discharging, compressing consolidation stage, matching with pressing cake structural evolution. As working pressure increases, oil yield shows an upper parabola relation with pressure. When pressure exceeding 25 MPa, castor oil yield increasing tends to stabilize, reaching 38%. Speed effect showed down parabola relation on oil yield, opposite to stress factor. Creep time promoted oil output with upper parabola within 720 s. When temperature below 120°C, a linear increasing relation on oil yield presents. Oil yield decreases when above 120°C. This research provides in‐depth theoretical guidance for industrial castor oil extraction. Practical Applications: Castor seeds are rich in oil content. Extracted castor oil has been widely used for industrial applications such as biodiesel, lubricants, medicine. Mechanical extraction working parameters optimization can improve oil yield of castor seeds. The research provides a basic working optimization for castor seeds oil extraction. Castor oil has unique properties and has been proved to be a high promising renewable and independent energy sources. Compared with solvent oil extraction, mechanical oil pressing extraction method has higher oil quality and safety. The mechanical extracted oil is pure without organic solvent. In the research, castor seeds compression‐structural damage property and oil extraction mechanism were studied. Besides, the influence factors including compression pressure, speed, temperature and creep time are analyzed, working optimization for castor seeds oil extraction. The research provides important reference value for the mechanical pressing process and mechanical design of castor seeds in the practical applications. [ABSTRACT FROM AUTHOR]

Published

2024

44. Antidiarrheal Activity of Biosynthesized Zinc Oxide Nanoparticle Using Cassia ocidentalis in Castor Oil Induced Diarrhea Rats.

Author

Ahmed, Maryam Usman, Sudi, Ismaila Yada, and Garba, Hassan Wafi

Subjects

ZINC oxide, ANTIDIARRHEALS, CASTOR oil, DIARRHEA, FOURIER transform infrared spectroscopy

Abstract

Diarrhea is among the leading cause of death especially among children aged under 5 years. Zinc has been included in the management and treatment of diarrhea. Nanoparticle is gaining importance in medicine. The aim of this study is to evaluate the antidiarrheal activity of biosynthesized zinc oxide nanoparticle in castor oil-induced diarrheal rats. Zinc oxide nanoparticle (ZnONP) was biosynthesized using Cassia occidentalis leaf. The biosynthesized ZnONP was characterized using ultra-violet (UV)-spectroscopy and Fourier transform infrared spectroscopy (FTIR). Twenty five albino rats were randomly grouped into five groups. All rats, except the control, were induced with diarrhea. Group1 received normal saline, group 2 received 3 mg/kg b.wt. loperamide while groups 3, 4 and 5 received 10, 20, and 50 mg/kg b.wt. biosynthesized ZnONP. UV spectroscopy showed an absorption peak at 320 nm. The SEM micrographs reveal the nanoparticles as flake like which are well agglomerated.. The SEM micrographs reveal the nanoparticles as flake like which are well agglomerated. The biosynthesized zinc oxide nanoparticle significantly delayed the onset of diarrhea, decreased the number of wet feces, increased the percentage gastrointestinal tract (GIT) inhibition and decreased the volume of intestinal fluid. Biosynthesized zincoxide nanoparticle from Cassia occidentalis leaf can be used in the treatment of diarrhea. [ABSTRACT FROM AUTHOR]

Published

2024

45. Evaluation of In Vivo Antidiarrheal Activities of 80% Methanol Extract and Solvent Fractions of Peels of Colocasia esculenta (Araceae).

Author

Obsa Terfa, Temesgen, Abera Kebede, Fekadu, Kitessa Beyene, Monas, Tesfaye Abebe, Tilahun, Basazn Mekuria, Abebe, Seid Yesuf, Jibril, and Chandra, Harish

Subjects

*DIARRHEA prevention, *DIARRHEA, *BIOLOGICAL models, *ANTIDIARRHEALS, *RESEARCH funding, *GASTROINTESTINAL motility, *IN vivo studies, *DESCRIPTIVE statistics, *PLANT extracts, *SOLVENTS, *MICE, *MEDICINAL plants, *METHANOL, *ANIMAL experimentation, *CASTOR oil, *TOXICITY testing, *PHARMACODYNAMICS, *CHEMICAL inhibitors

Abstract

Background. Diarrhea is the common gastrointestinal disorder accounting for 2.5 billion episodes and 1.5 million deaths annually. Limitations and inaccessibility of currently available medications are the main problem associated with treatment of diarrhea. Hence, medicinal plants are usually preferred to manage diarrhea because they may contain constituents with high activity and fewer side effects. Even though the dose, safety, and efficacy of Colocasia esculenta (L.) Schott are not substantiated scientifically, several societies use it for the treatment of diarrhea. Objective. This study was targeted at exploring the in vivo antidiarrheal activities of 80% methanol extract and solvent fractions of peels of Colocasia esculenta (L.) Schott in Swiss albino mice. Methods. The plant was collected and extracted with 80% methanol, followed by fractionation with distilled water, chloroform, and diethyl ether. Castor oil‐induced diarrhea, enteropooling, and motility tests were used to evaluate antidiarrheal activity. The test groups received graded doses of 100 mg/kg, 200 mg/kg, and 400 mg/kg. Negative controls received 10 ml/kg of 2% Tween 80 while positive controls received loperamide (3 mg/kg) or atropine (5 mg/kg). Results. The crude and solvent fractions of the plant extract have induced significant effects in reduction of the number and weight of wet stools at all tested doses. However, delay in onset of diarrhea was observed only at 400 mg/kg (P < 0.001) for both crude extract and solvent fractions. In antienteropooling test, 80% methanol extract and solvent fractions have significantly reduced the weight and volume of intestinal contents, especially at 200 mg/kg and 400 mg/kg. Regarding the antimotility test, the crude extract reduced motility at all tested doses, whereas the solvent fractions reduced intestinal motility mainly at 400 mg/kg (P < 0.001). Conclusion. The study has revealed that the 80% methanol extract and solvent fractions of the plant possess antidiarrheal activities supporting the traditional antidiarrheal claims of the plant. [ABSTRACT FROM AUTHOR]

Published

2024

46. Preparation of Thermo‐Responsive Smart and Shrinkable Bio‐Composite Using Sugarcane Waste and Sustainable Polyurethane.

Author

Mukherjee, Chandrapaul, Samanta, Debasis, Sultan Nasar, A., Jaisankar, Sellamuthu N., and Sarkar, Jit

Subjects

*SHAPE memory polymers, *ARTIFICIAL skin, *SUGARCANE, *SMART materials, *CASTOR oil, *ACRYLIC acid, *THERMORESPONSIVE polymers, *POLYURETHANES

Abstract

Smart materials that respond to external stimuli are useful for applications ranging from artificial skin to sensing to cosmetics. Inspired by natural phenomena (self‐healing, shape memory, and shrinking), this work develops a novel smart bio‐composite using sustainable polyurethane (PU) and sugarcane bagasse (SB) waste without using a solvent. PU is synthesized using polycaprolactone (PCL) diol, castor oil (CO) as a polyol, and isophorone diisocyanate (IPDI) as diisocyanate. Composites are prepared using PU and SB in the presence and absence of poly(acrylic acid) (PAA) and are denoted as PBA and PB, respectively. TGA and DSC analysis indicate the broad (−68.4 °C to 192 °C) thermal stability of these materials. PBA and PB composites exhibited relatively fast (20–30 min) self‐healing and high shape fixity ratio (Rf) (70–83%), and shape recovery ratio (Rr) (82–100%) at 60 °C in the air. Furthermore, PBA shows hot water‐responsive rapid 100% shape recovery and also exhibits thermoresponsive shrinkage properties like human skin. PBA lifts a material 13.3±2 % of its original length by utilizing its thermoresponsive shrinking property. These inexpensive materials with self‐healing, shape recovery, high thermal stability, and thermo‐responsive properties are attractive and may be useful in artificial skin, sensor, and coating applications. [ABSTRACT FROM AUTHOR]

Published

2024

47. THE IMPACT OF CUCO3 NANO PARTICLES ON THE RHEOLOGY OF BIODIESEL EXTRACTED FROM CASTOR OIL.

Author

Gwadabe, S. H., Jamo, H. U., Ismail, U. I., Musa, F. U., and Uba, A. R.

Subjects

*MEASUREMENT of viscosity, *RHEOLOGY, *INFRARED spectra, *VISCOSITY, *PETROLEUM

Abstract

Transesterification tend to be the most adopted method of producing biodiesel, but the outcome is associated with high viscosity especially at low temperature. Viscosity is the most important rheological property of biodiesel. This paper investigates the impact of Cupper II Carbonate (CuCO3) nanoparticles on the rheology of biodiesel extracted from castor oil. The CuCO3 nanoparticles has been subjected to Xray fluoroscopy (XRF) in order to determine its elemental composition. The crude castor oil was purified, trans-esterified and CuCO3 nanoparticles were dispersed in the trans-esterified oil with concentration ranging from 0.1wt% to 1.0wt% in 0.1wt% interval. Fourier Transform Infrared spectra (FTIR) was used to examine the functional groups of the transesterified sample. The samples were subjected to viscosity measurement using digital viscometer at a temperature range of 200C to 1000C at the interval of 200C. The XRF characterization shows that the CuCO3 nanoparticles used is pure due to the fact that its percentage concentration tends to be 92.11%. FTIR analysis indicate that the ester (biodiesel) was achieved at 1744.4 peak. The viscosities of the samples decrease as the temperature increases and with the increase in the amount CuCO3 concentration. The viscosity tends to be best at the application of 0.3wt%. This shows that CuCO3 nanoparticles can be used as biodiesel additive using castor oil as feedstock. [ABSTRACT FROM AUTHOR]

Published

2024

48. Analytical Evaluation of Processed and Unprocessed Castor Oil.

Author

Katore, Anjali S., Wanjari, Anita, Kandalkar, Utkarsha, and Swer, Harlin

Subjects

*CASTOR oil, *FREE fatty acids, *SPECIFIC gravity, *INTERNAL medicine, *REFRACTIVE index

Abstract

Background: Medicated oils and Clarified butter are often utilized in the Traditional System of Indian Medicine for internal and external use. To improve the durability and efficacy of therapeutic oil unique processing is advocated known as Murchhana. Specific ingredients are mentioned for each oil. The current work seeks to conduct a comparative analytical evaluation of processed and unprocessed castor oil. Materials and Methods: Both the oils were analyzed for rancidity, specific gravity at 25°C, refractive index, iodine value, saponification value, acid value, peroxide value, free fatty acids, and HPTLC. Results: There was a significant difference between unprocessed and processed castor oil. Physicochemical and HPTLC analysis revealed significant differences in all samples, indicating that extra active chemicals were obtained in the processed oil. Saponification Value was increased in processed oil, however, iodine value, and acid value were found to decrease indicating the enhancement of the shelf life. Thus, utilizing adopting processing techniques the shelf life of the oil can be improved. Conclusion: Based on the results of analytical criteria, it implies the significance of processing the castor oil as mentioned in the Ayurvedic texts. [ABSTRACT FROM AUTHOR]

Published

2024

49. Cosmetic degradation: A study on body lotions with botanical extracts.

Author

Branco, Andreia, Soares, Cristina, Delerue-Matos, Cristina, Ramalhosa, Maria João, and Domingues, Valentina F.

Subjects

*OINTMENTS, *CASTOR oil, *ALOE vera, *CALENDULA officinalis, *SOY oil, *LIPIDS, *MALTODEXTRIN

Abstract

Lipid oxidation is a spontaneous process in fats and, consequently, in products with significant fat content. Many cosmetics fall into this category, presenting an intrinsic relationship between the productʼs quality, oxidation capacity, and market value. This study comprehensively investigated the aging of body lotions, accentuating the role of their chemical formulations. Sensory analysis clarified that controlled temperature-induced aging significantly altered the lotions' appearance, texture, color, and, to a lesser extent, odor, hinting at the onset of rancidity. As lipid peroxidation unfolds, the emergence of secondary oxidation products like aldehydes, ketones, and alcohols becomes prominent. These secondary products indicate a potential degradation in the lotion's quality and efficacy. Quantifying the primary oxidation products was possible using methods like the quantification of Conjugated Dienes (CD) expressed in percentage and the Peroxide Index (PI) method expressed in meqO 2 /kg of a dry sample. On the other hand, methods such as the p-Anidisine Index (pAi) and the thiobarbituric acid reactive substances (TBARS) with malonaldehyde (MDA) expressed as malonaldehyde concentration (mg/g of dry sample) provided the quantification of secondary oxidation products. Regarding lipid oxidation, lotions containing sunflower and soybean oils emerged as notably susceptible. Conversely, samples that demonstrated minimal oxidation, were attributed to protective elements such as Aloe barbadensis and Calendula officinalis extracts. Examining into secondary oxidation, four samples displayed the highest TOTOX values, indicating extensive oxidation. A discernible correlation was observed between TOTOX values and natural extracts' presence (or lack), underscoring their protective or exacerbating roles. Certain natural ingredients, including A. barbadensis leaf juice powder and C. officinalis flower extract, were recognized as supporters against oxidation. Yet, components like PEG-40 hydrogenated castor oil can, paradoxically, seem to intensify the oxidative cascade. This research provides crucial insights into the interplay between natural extracts and lipid oxidation in body lotions. The elucidated results accentuate the necessity for judicious ingredient selection, balancing the inclusion of natural extracts to ensure product quality, longevity, and safety. [Display omitted] • Aloe barbadensis and Calendula officinalis extracts show protection against oxidation. • PEG-40 hydrogenated castor oil accelerates lipid oxidation acting as a pro-oxidant. • Accelerated aging tests show changes in lotion appearance, texture, color, and odor. • Sunflower and soybean oils exhibited heightened vulnerability to lipid oxidation. • A correlation between TOTOX values and antioxidant-rich natural extracts emerged. [ABSTRACT FROM AUTHOR]

Published

2024

50. Study on the Performance of Asphalt Modified with Bio-Oil, SBS and the Crumb Rubber Particle Size Ratio.

Author

Guo, Fengqi, Shen, Zhaolong, Jiang, Liqiang, Long, Qiuliang, and Yu, Yujie

Subjects

*ASPHALT, *CRUMB rubber, *FOURIER transform infrared spectroscopy, *CASTOR oil, *POLYMER blends

Abstract

To enhance the properties of SBS and crumb rubber-modified asphalts, four different amounts (5%, 10%, 15%, and 20%) of castor oil were added to crumb rubber-modified asphalts to mitigate the adverse effects of high levels of fine crumb rubber particles on the aging resistance of SBS and crumb rubber-modified asphalt. Initially, a conventional test was conducted to assess the preliminary effects of bio-oil on the high-temperature and anti-aging properties of SBS and crumb rubber-modified asphalt. Subsequently, dynamic shear rheometer and bending beam rheometer tests were employed to evaluate the impact of bio-oil on the high- and low-temperature and anti-fatigue properties of SBS and crumb rubber-modified asphalt. Finally, fluorescence microscopy and Fourier transform infrared spectroscopy were used to examine the micro-dispersion state of the modifier and functional groups in bio-oil, SBS and crumb rubber composite-modified asphalts. The experimental results indicated that bio-oil increased the penetration of SBS and crumb rubber-modified asphalt, decreased the softening point and viscosity, and significantly improved its aging resistance. The addition of bio-oil enhanced the anti-fatigue properties of SBS and crumb rubber-modified asphalt. The optimal amount of added bio-oil was identified. Bio-oil also positively influenced the low-temperature properties of SBS and crumb rubber-modified asphalt. Although the addition of bio-oil had some adverse effects on the asphalt's high-temperature properties, the asphalt mixture modified with bio-oil, SBS, and crumb rubber still exhibited superior high-temperature properties compared to unmodified asphalt. Furthermore, fluorescence microscopy and Fourier transform infrared spectroscopy results demonstrated that bio-oil can be uniformly dispersed in asphalt, forming a more uniform cross-linked structure and thereby enhancing the aging resistance of SBS and crumb rubber-modified asphalt. The modification process involved the physical blending of bio-oil, SBS, and crumb rubber within the asphalt. Comprehensive research confirmed that the addition of bio-oil has a significant and positive role in enhancing the properties of SBS and crumb rubber-modified asphalt with different composite crumb rubber particle size ratios. [ABSTRACT FROM AUTHOR]

Published

2024