Search or ask a question

Does alugbati have a natural resin that can seal paintings?

Atmospheric-pressure chemical ionization

Mass spectrometry

Best insight from top research papers

Alugbati, also known as Malabar spinach, does not contain a natural resin suitable for sealing paintings. Natural resin paints are typically prepared using ingredients like natural alkyd resin, botanical color paste, and high-molecular film-forming materials . In contrast, alugbati is not mentioned in the provided research papers as a potential source of natural resin for painting varnishes. The identified natural resins for painting varnishes include dammar resin, which is a terpenoid resin with a complex composition that can be analyzed using mass spectrometry techniques like MALDI and APCI . While some vegetable resins like Venice turpentine have been historically used in paintings, alugbati is not among the resins analyzed for this purpose . Therefore, alugbati is not known to possess the natural resin properties required for sealing paintings.

Answers from top 4 papers

PDF

Open Access

More filters

Papers (4)	Insight
Journal Article•DOI Analysis of dammar resin with MALDI‐FT‐ICR‐MS and APCI‐FT‐ICR‐MS Signe Vahur, Anu Teearu, Tõiv Haljasorg, Piia Burk, Ivo Leito, Ivari Kaljurand - Show less +5 more 01 Mar 2012-Journal of Mass Spectrometry 22 Citations	Not addressed in the paper.
Open access•Dissertation•DOI Towards more stable natural resin varnishes for paintings Patrick Dietemann 01 Jan 2003 13 Citations	Not addressed in the paper.
Patent Natural material-like seal material Imai Masaya, Noma Yoshiyuki - Show less +1 more 16 Apr 1991 2 Citations	Not addressed in the paper.
Patent Natural resin paint and preparation method thereof Weiwei Ma 16 May 2012 2 Citations	Not addressed in the paper.

My columns

Related Questions

How nature patten used in art?5 answersNature patterns are utilized in art in various ways, as seen in different research contexts. For instance, Nature Bot combines technology and art to create a remote exploration of nature, reflecting the natural environment through kinetic sculptures. Additionally, Paleolithic art serves as a mode of expression that provides insights into past human societies and environments, showcasing a deep connection to nature through images and artifacts. Furthermore, nature-based art therapy sessions have been shown to enhance well-being by allowing individuals to visually explore nature, even when access is restricted, leading to increased life satisfaction and positive affect. These examples highlight how art can draw inspiration from nature, fostering creativity, ecological awareness, and mental restoration.

What are the folk remedies using Alugbati leaves?5 answersFolk remedies using Alugbati leaves include using the translucent parenchyma of the succulent leaves as a soothing, astringent, and healing poultice for skin diseases, wounds, burns, and eye afflictions, as well as a potion for various internal ailments.

What is alugbati?3 answersAlugbati, also known as Basella alba or Basella rubra L., is a plant that is native to tropical countries like the Philippines. It has been reported to have various properties such as cytotoxic, anti-inflammatory, and wound-healing effects. Alugbati has also been found to support the growth and development of the broad mite, Polyphagotarsonemus latus, making it a suitable host plant for mass-rearing these mites in the laboratory. Additionally, alugbati has been studied for its potential use as a natural hair dye substitute, with its dye extract showing promising results in terms of absorbance and light transmission properties. Furthermore, alugbati has been used in neuroscience research, particularly in the investigation of the neural basis of introspection and other complex cognitive processes.

How are natural materials used in art?5 answersNatural materials are used in art for their artistic properties and aesthetic qualities. Artists and designers often use natural materials to express their symbolic ideas and explore the properties and content of materials. The use of natural materials in art and design is a current trend, and they are often the main focus of design practices. Natural materials can be transformed or used in their original form, depending on the artistic intention. The expressive means of natural materials are influenced by the subject environment, which raises questions about the nature of their use and combination with artificial materials. Natural materials, such as stone or wood, have significant impact on the compositional-plastic and figurative-stylistic features of artworks, contributing to a more expressive artistic language. The study and analysis of natural materials in art provide deeper knowledge about the history, techniques, and preservation of artworks.

What are some ways to use natural materials in art?5 answersNatural materials can be used in art in various ways. Artists have used natural materials such as mineral-based pigments, including ochre, azurite, and malachite, for cave paintings and rock art throughout history. These pigments were also used by early historic cultures in the Middle East, Asia, and the Mediterranean basin. In addition to pigments, natural materials have been used as binding media, adhesives, and varnishes in artworks. These include oils, waxes, resins, gums, mucilages, proteins, and plant gums such as gum tragacanth and gum arabic. The use of natural materials in art allows for the creation of unique textures, colors, and effects, enhancing the aesthetic qualities of the artwork. By understanding the properties and characteristics of natural materials, artists can explore their expressive potential and create artworks that reflect the beauty and diversity of the natural world.

How do you seal the bottom of a ceramic pot?6 answers

See what other people are reading

Orange peel as an alternative dishwashing liquid?

Orange peel can indeed serve as an alternative to traditional dishwashing liquid. Research has shown that fermented orange peel solutions have high cleaning potential, comparable to commercial detergents. Additionally, orange peel-based sorbent materials, when activated using NaOH and H3PO4, exhibit significant sorption capacities, making them effective in reducing water pollution. Furthermore, orange peel liquefaction can result in value-added products like adhesives and chemicals, showcasing the versatility of this fruit waste. These findings highlight the feasibility of utilizing orange peel in dishwashing applications, not only for its cleaning properties but also for its environmental benefits and potential for value addition.How ameliorate paint failure in exterior wood applications.?

To ameliorate paint failure in exterior wood applications, several strategies can be employed. Firstly, enhancing coating flexibility and reducing the glass transition temperature can increase the service life of wood coatings. Additionally, stabilizing wood dimensions through treatments like acetylation or using polyethylene glycol can mitigate strain-induced cracking in coatings. Surface modifications such as plasma treatments can improve wood-coating adhesion, further enhancing durability. Moreover, utilizing coatings with UV absorbers, antioxidants, and oxides can help combat photodegradation and delamination issues in clear-coated boards. It is crucial to consider factors like resin blends, oils, pigments, and binders when selecting coatings, as their composition significantly impacts performance and longevity in exterior wood applications. By implementing these strategies, the durability and effectiveness of exterior wood coatings can be significantly improved.How to distinguish between leucine and isoleucine by lc-ms?

To distinguish between leucine (Leu) and isoleucine (Ile) by LC-MS, several innovative methods have been developed. These include charge transfer dissociation (CTD) mass spectrometry, reductive dimethylation combined with MS3 fragmentation, and an integrated LC-MS strategy involving HCD-MSn and ETD-HCD MS3 analysis. CTD offers reliable sequence coverage and side-chain cleavages for Leu/Ile discrimination. Reductive dimethylation with MS3 fragmentation generates informative spectra to differentiate between the two isomers. The integrated LC-MS strategy utilizes HCD-MSn and ETD-HCD MS3 analysis to reliably identify Leu and Ile residues in proteins and peptides, crucial for maintaining antigen binding affinity and specificity. Additionally, ion mobility separation coupled with tandem mass spectrometry (IM-tandem MS) provides insights into the ionization behaviors of Leu and Ile under different modes, aiding in their distinction.How to use gamma spectrometry for depleted uranium measurement?

Gamma spectrometry can be utilized for measuring depleted uranium by analyzing its decay products, such as Th-234 and Pa-234. This method allows for efficient measurements above 0.2 kilobecquerels as per ISO-9978 standards. Additionally, a method for assessing the mass concentration of uranium in uranium-bearing materials involves acquiring an energy spectrum of gamma radiation, calculating an initial mass concentration of uranium, measuring parameters representative of the sample, and calculating a corrected mass concentration of uranium using corrective coefficients. Furthermore, studies have shown that using a High-Purity Germanium detector combined with hypothesis tests on count statistics can help assess alpha contamination linked with low gamma activity, particularly in cases like uranium-based contamination on concrete surfaces.Orange peel that can use for creating a dishwashing liquid?

Orange peel can be utilized in various ways, including the creation of a dishwashing liquid. Different methods have been developed to process orange peel for such purposes. For instance, orange peel can be liquefied using a mixture of ethyleneglycol and glycerol as solvents, catalyzed by sulphuric acid, to produce value-added products like adhesives or chemicals. Additionally, an orange peel coating has been developed using alkyd resin, glycol, titanium dioxide, and other components, providing specific properties like glossiness and water resistance. Furthermore, a production method for orange peel sauce involves enzyme deactivation treatment, peeling, leaching, rinsing, and other steps to preserve nutrients and active ingredients in the peel for later processing. These methods showcase the versatility of orange peel in creating various products, including potentially a dishwashing liquid.Why dichloromethane polarity is low?

Dichloromethane exhibits low polarity due to its nature as a low-polarity solvent, as evidenced by the establishment of a basicity scale for weak bases in 1,2-dichloroethane. Additionally, the rectification process involving the addition of ethylene glycol aids in separating and purifying the moisture content of dichloromethane, contributing to its low polarity characteristics. Furthermore, studies on nickel phthalocyaninates in dichloromethane solutions have shown the existence of associated forms even at very low concentrations, indicating the solvent's low polarity properties. Molecular dynamics simulations on organic liquids like methylchloromethane have highlighted that the inclusion of polarization in the solvent does not significantly impact its structure but slightly slows down dynamics, emphasizing the low polarity nature of dichloromethane.What is petroleomics?

Petroleomics refers to the detailed molecular characterization of petroleum-related samples using mass spectrometry. This field has seen significant advancements in instrumentation, experimental methods, and data analysis procedures, allowing for unprecedented levels of compositional detail to be obtained from petroleum samples. High-resolution mass spectrometry techniques like Fourier transform ion cyclotron (FT-ICR) and Orbitrap, combined with various ionization methods, have revolutionized the analysis of complex mixtures like crude oil, which is considered one of the most intricate organic mixtures globally. Petroleomics plays a crucial role in understanding the chemical composition of petroleum-derived fuels and biofuels, aiding in maximizing their potential utilization. The insights gained from petroleomics not only benefit the energy and environmental sectors but also find applications in other fields through adapted methodologies.Does increase in column temprature provide better seaparation in mixture in hplc?

Increasing the column temperature in liquid chromatography (LC) can indeed enhance separation in mixtures. Elevated temperatures reduce retention times, increase throughput, and lower running costs by decreasing viscosity, allowing the use of columns packed with small particles and higher flow rates. High-temperature LC coupled with sub-2 μm columns can significantly boost efficiency by reducing mobile phase viscosity and backpressure, resulting in higher plate counts and improved separation of compounds in mixtures. However, it is essential to note that while column temperature can be a powerful tool for controlling separations, it can also introduce challenges. Overall, utilizing higher temperatures in HPLC can be a valuable strategy to achieve better separation in mixtures by optimizing column performance and reducing operational costs.May Iuse Negative-pressure with hocl?

Yes, you can potentially use negative pressure in conjunction with HOCl (Hypochlorous Acid) based on the contexts provided. Negative pressure wound dressings have been developed to enhance wound healing by creating an environment conducive to recovery. Additionally, a negative-pressure injector has been designed for medical treatments in a negative-pressure environment, offering new possibilities for western medicine applications. Moreover, a negative pressure ear pick has been invented to aid in the removal of dirt from the ear canal, showcasing the versatility of negative pressure applications in various medical devices. Therefore, the combination of negative pressure techniques with HOCl could potentially offer benefits in wound care, medical treatments, and ear hygiene.What are non-toxic chemical or even not chemical can help improve the water resistance of a product?

Various non-toxic chemicals and additives can enhance the water resistance of products. For instance, polyamide-amine epichlorohydrin (PAE) and metal ions like aluminum can significantly improve the water resistance of soy-based proteins in adhesives. Additionally, ammonium polyphosphate, aluminum hydroxide, and foaming agents in an aqueous fireproof coating composition can provide excellent water resistance while being environmentally friendly. Furthermore, polyvinyl alcohol, sweet potato starch, and zinc acetate in water-resistant adhesives can enhance water resistance without toxic components. Moreover, a non-toxic water-resistant coating can be achieved using polyurethane resin, epoxy resin, and graphene, ensuring long-lasting water resistance and environmental friendliness. These additives and chemicals offer effective ways to improve water resistance without compromising safety or environmental impact.Why is the need of adding antifungal agents in tissue conditioner?

The addition of antifungal agents in tissue conditioners is crucial to combat oral diseases like candidiasis and enhance treatment efficacy. Antifungal agents, whether synthetic like fluconazoleor natural like Ocimum basilicum essential oil (OBEO), exhibit potent antifungal properties against pathogens like Candida albicans. Incorporating these agents into tissue conditioners helps in reducing microbial adhesion, inhibiting fungal growth, and preventing denture stomatitis. Studies have shown that tissue conditioners with antifungal agents like chitosan nanoparticles (CSNPs) and essential oils demonstrate enhanced antifungal potential, controlled release kinetics, and improved hardness, making them promising alternatives for treating denture-induced stomatitis. Additionally, the use of antifungal agents in tissue conditioners can help maintain the health of oral tissues by preventing the colonization of harmful microorganisms.