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Artykuły w czasopismach na temat „Bio-Based surfactants”

Autor: Grafiati
Data publikacji: 21 grudnia 2024
Data aktualizacji: 31 lipca 2025

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1

V, Soni. "The Potential of Biosurfactants in the Pharmaceutical Industry: A Review." Bioequivalence & Bioavailability International Journal 6, no. 2 (2022): 1–15. http://dx.doi.org/10.23880/beba-16000176.

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Surface-active substances known as "bio-based surfactants" come from a variety of sources, including plants, animals, microorganisms, marine life, synthetics, and semi-synthetics. Bio-based surfactants have a variety of uses, including in food, personal care, pharmaceutical, and industrial formulations as well as in agricultural and oil field chemicals and institutional and industrial cleaning. Nowadays, there is a significant demand for bio-based surfactants on the market as a result of the strict environmental rules that governments across the globe have placed on the use of toxins in deterg
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Haq, Bashirul, Jishan Liu, and Keyu Liu. "Green enhanced oil recovery (GEOR)." APPEA Journal 57, no. 1 (2017): 150. http://dx.doi.org/10.1071/aj16116.

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Green enhanced oil recovery (GEOR) is a chemical enhanced oil recovery (EOR) method involving the injection of specific green chemicals (surfactants/alcohols/polymers) that effectively displace oil because of their phase-behaviour properties, which decrease the interfacial tension (IFT) between the displacing liquid and the oil. In this process, the primary displacing liquid slug is a complex chemical system called a micellar solution, containing green surfactants, co-surfactants, oil, electrolytes and water. The surfactant slug is relatively small, typically 10% pore volume (PV). It may be fo
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Pongmuksuwan, Pornlada, and Wanlop Kitisatorn. "Effect of Surfactant on Properties of Bio-Based Polyurethane Foams." Solid State Phenomena 366 (December 16, 2024): 9–14. https://doi.org/10.4028/p-bxhr5q.

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This study explores the impact of epoxidized palm oil (EPO) content and surfactant type on the mechanical properties of polyurethane foams. The resilience, hardness, and compressive strength of the foams were systematically analyzed at different NCO/OH molar ratios. The findings revealed that increasing EPO content generally decreased both hardness and resilience values, indicating enhanced viscoelastic properties due to the plasticizing effect of EPO's hydrocarbon chains. However, specific surfactants significantly influenced these mechanical properties. Concentrol STB PU-2254 and Tegostab® B
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Prabhjot Kaur. "Role of surfactants in cosmetic industry." International Journal of Science and Research Archive 14, no. 1 (2025): 1599–604. https://doi.org/10.30574/ijsra.2025.14.1.0136.

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The chemical that lowers surface tension is called a surfactant. Surfactants are utilised as raw ingredients in the production of a wide range of products, including soap, surface-active ionic liquids, nanoparticles, carbon nanotube dispersions, and cosmetics. Surfactants are essential for cleaning, conditioning, and foam stabilization in shampoos, conditioners, and styling solutions. The need for novel and environmentally friendly surfactants is growing along with the cosmetics sector. Current patterns include Bio-based Surfactants, Mild Surfactants, Sustainable Processes. Amino acid and surf
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Huang, Huiyu, Xiaoling Huang, Hongping Quan, and Xin Su. "Soybean-Oil-Based CO2-Switchable Surfactants with Multiple Heads." Molecules 26, no. 14 (2021): 4342. http://dx.doi.org/10.3390/molecules26144342.

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Oligomeric surfactants display the novel properties of low surface activity, low critical micellar concentration and enhanced viscosity, but no CO2 switchable oligomeric surfactants have been developed so far. The introduction of CO2 can convert tertiary amine reversibly to quaternary ammonium salt, which causes switchable surface activity. In this study, epoxidized soybean oil was selected as a raw material to synthesize a CO2-responsive oligomeric surfactant. After addition and removal of CO2, the conductivity analyzing proves that the oligomeric surfactant had a good response to CO2 stimula
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6

Tiwari, Mehul, and Divya Bajpai Tripathy. "Soil Contaminants and Their Removal through Surfactant-Enhanced Soil Remediation: A Comprehensive Review." Sustainability 15, no. 17 (2023): 13161. http://dx.doi.org/10.3390/su151713161.

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This review provides a comprehensive analysis of the effectiveness of surfactants in enhancing the remediation of contaminated soils. The study examines recent and older research on the use of effluent treatment techniques combined with synthetic surface-active agents, bio-surfactants, and various categories of surfactants for soil reclamation purposes. The main purpose of this review is to evaluate the effectiveness of surfactants in enhancing the remediation of contaminated soils. The research question is to explore the mechanisms through which surfactants enhance soil remediation and to ass
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M.A., Adeleye,, Adeleye, S.A., and Ogunkunle T.F. "Synthesis, Characterization, Physical and Thermodynamic Properties of an Anionic Surfactant Derived from Linum Usitatissimum." International Journal of Research and Innovation in Applied Science X, no. VI (2025): 1773–93. https://doi.org/10.51584/ijrias.2025.100600135.

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Chemically synthesized surfactants are very effective in breaking the boundary tensions between the trapped oil and injected fluid but of recent, the use of synthetic surfactant is limited owing to its high cost of production and the associated toxic effects which have proven to be harmful to the environment. Therefore, the new focus of the oil and gas industry is the development of cost-effective bio-degradable surfactants that are environmentally friendly. The study discusses the production of bio-based surfactant via saponification from Linseed oil and its application in enhanced oil recove
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Romero Vega, Gloria, and Paola Gallo Stampino. "Bio-Based Surfactants and Biosurfactants: An Overview and Main Characteristics." Molecules 30, no. 4 (2025): 863. https://doi.org/10.3390/molecules30040863.

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Natural surfactants are surface-active molecules synthesized from renewable resources (i.e., plants, animals, or microorganisms) and possess properties comparable to conventional surfactants, making them an environmentally friendly potential alternative to petrochemical surfactants. Additionally, they exhibit biological properties such as anti-microbial properties, biodegradability, and less toxicity, allowing their use in everyday products with minimal risk to human health and the environment. Based on their mode of production, natural surfactants can be classified into first-generation or bi
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9

Popov, Alexey, Irina Ivanova, and Eva Dikareva. "Environmental impact and biological activity of bio-based shampoos." E3S Web of Conferences 420 (2023): 09016. http://dx.doi.org/10.1051/e3sconf/202342009016.

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One of the types of pollution of aquatic and terrestrial ecosystems is pollution by surface-active substances (surfactants).With the awareness of the potential danger of conventional surfactants on the environment and human health, there is a growing interest in the development of bio-based surfactants in personal hygiene products. These substances are considered safer, are abundant, biodegradable, and biocompatible. The study of bio-based surfactants shampoos consisting only of natural organic components is of particular interest. The objective of the research: assessment of the environmental
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10

Afifah, Dini Nur, Rahma Falah Maulidina, Novi Astuti, and Riska Annisa Wahyadi. "Application of Saponins from Ambon Banana Petiole (Musa paradisiaca var. sapientum L.) as Natural Surfactants in Bio-Hand Soap." Research In Chemical Engineering (RiCE) 2, no. 1 (2023): 08–13. http://dx.doi.org/10.30595/rice.v2i1.80.

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Surfactants are commonly use as a foaming agents contained in soap products. Consequently, the type of surfactant used is a synthetic product that is difficult to degrade by nature fate. In addition to environmental problems, prolonged use of these products can cause health problems, such as irritation in the form of dry, scaly, itchy skin, to red rashes. Synthetic surfactants used in industry are also petroleum derivatives. This fact makes the sustainability of the industry threatened due to the increasingly critical oil reserves. Based on these problems, it is important to study alternative
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11

Zhang, Xue-Mei, Shi-Zhong Yang, Homely Isaya Mtui, and Bo-Zhong Mu. "Polyunsaturated Fatty Acid-Rich Waste Vegetable Oil-Derived Bio-Based Zwitterionic Surfactants with High Interfacial Activity for Enhanced Oil Recovery." Processes 13, no. 7 (2025): 2159. https://doi.org/10.3390/pr13072159.

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Recently, vegetable oil-derived monounsaturated fatty acids (MUFAs) have predominantly been utilized in producing bio-based surfactants, resulting in low bioresource utilization and high separation costs. Although polyunsaturated fatty acids (PUFAs) are abundant and often co-exist with MUFAs, bio-based surfactants synthesized from PUFA-rich feedstocks have been less researched due to concerns regarding their interfacial performance. In this study, a novel series of PUFA-based zwitterionic surfactants with strong interfacial activity was synthesized from waste vegetable oils via an eco-friendly
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12

Patil, Harshal, and Ashok Athalye. "Sustainable Enzymatic Desizing of Cotton with Bio-surfactant Extracted from Soapnut." Textile & Leather Review 7 (February 27, 2024): 327–39. http://dx.doi.org/10.31881/tlr.2024.007.

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Surfactant is one of the major consuming auxiliaries in textile processing. The rising demand for petroleum-based surfactants is in focus and it is tremendously utilized to fulfil the need for surfactants in textile industries. These petroleum-based surfactants are one of the major pollutants of textile wastewater. Many attempts have been made to replace this with low toxicity to make the process sustainable. The present investigation works on the same objective to replace the petroleum-based surfactant from desizing by using soapnut extract as a wetting agent. The process was optimised by usi
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13

Duprat-de-Paule, Sébastien, Jérôme Guilbot, Alicia Roso, Sophie Cambos, and Aurélie Pierre. "Augmented bio-based lipids for cosmetics." OCL 25, no. 5 (2018): D503. http://dx.doi.org/10.1051/ocl/2018036.

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Practical examples showcase the key role of plant-based lipids in the design of innovative sustainable specialty ingredients. Great diversity in plant origins and chemical transformations leads to great molecular diversity and explains why bio-based lipids are involved in broad ingredient categories such as biodegradable emollients, environmentally friendly surfactants, rheology modifiers and active ingredients. Choosing lipid structure, with varying fatty chain length, saturation level and branching, determines ingredient functionality and usage, as these vary, for instance in the case of sur
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14

Wibowo, Agam Duma Kalista, Rizki Megawati, Vilia Kartika Setyaningrum, et al. "Investigating potential application of bio-based polymeric surfactant using methyl ester from palm oil for chemical enhanced oil recovery (CEOR)." Communications in Science and Technology 8, no. 2 (2023): 235–42. http://dx.doi.org/10.21924/cst.8.2.2023.1318.

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Fatty Acid Methyl Ester (FAME) or palm oil methyl ester is one of the palm oil derivatives in which one of the anionic surfactants that can be generated from it is methyl ester sulfonate (MES). This bio-based surfactant can reduce the interfacial tension (IFT) between oil and water. To produce a bio-based polymeric surfactant, sulfonate groups from MES were grafted onto polymer chains. Palm oil methyl ester was reacted with sulfuric acid (H2SO4) to synthesize MES. Afterwards, MES was reacted with the Ethyl Acrylate (EA) monomer to synthesize polymeric surfactant. Investigating this route to pr
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15

Mudge, Stephen M., Juergen Tropsch, Thierry Beaudouin, Christophe Séné, and Horacio Hormazabal. "Determining the Bio‐Based Carbon Content of Surfactants." Journal of Surfactants and Detergents 23, no. 4 (2020): 771–80. http://dx.doi.org/10.1002/jsde.12411.

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16

Avita Ayu Permanasari, Mohd Afzanizam Mohd Rosli, Ilham Akbar Habibi, et al. "Efficiency of a Photovoltaic Thermal (PVT) System using Bio-nanofluid based on Virgin Coconut Oil-Graphene with Additive Surfactant: An Experimental Study." Journal of Advanced Research in Applied Sciences and Engineering Technology 34, no. 2 (2023): 287–304. http://dx.doi.org/10.37934/araset.34.2.287304.

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This study explores the efficiency of photovoltaic thermal (PVT) system using bio-nanofluid based on virgin coconut oil (VCO). This research proposes bio-nanofluid as dispersion media because of their potential in medium to high temperature applications in terms of thermal output, biodegradable, and renewable. Graphene nanoplatelets (GNP) were prepared in a mass fraction of 0.1% wt. Then, the ratio for the surfactant was a 1:1 nanoparticle. The surfactants used in this study were Polyvinylpyrrolidone (PVP), Sodium dodecyl sulfate (SDS), and Cetyltrimethylammonium bromide (CTAB). The two-stage
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17

Patil, Harshal. "The Role of Non-ionic Surfactants in Modern Textile Manufacturing: A Comprehensive Review." INTERNATIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 04 (2025): 1–9. https://doi.org/10.55041/ijsrem45346.

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ABSTRACT: - Non-ionic surfactants have emerged as crucial agents in textile production because of their unique physicochemical characteristics, such as neutrality, low toxicity, and good compatibility with various chemicals and fibres. Their amphiphilic nature allows them to wet, emulsify, disperse, and stabilize well, making them suitable for application at different stages of textile processing especially in pre-treatment, dyeing, and finishing. This review discusses the structural diversity of non-ionic surfactants and examines their functionality in enhancing fabric quality, dye uniformity
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18

Henshaw, Charlotte A., Adam A. Dundas, Valentina Cuzzucoli Crucitti, et al. "Droplet Microfluidic Optimisation Using Micropipette Characterisation of Bio-Instructive Polymeric Surfactants." Molecules 26, no. 11 (2021): 3302. http://dx.doi.org/10.3390/molecules26113302.

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Droplet microfluidics can produce highly tailored microparticles whilst retaining monodispersity. However, these systems often require lengthy optimisation, commonly based on a trial-and-error approach, particularly when using bio-instructive, polymeric surfactants. Here, micropipette manipulation methods were used to optimise the concentration of bespoke polymeric surfactants to produce biodegradable (poly(d,l-lactic acid) (PDLLA)) microparticles with unique, bio-instructive surface chemistries. The effect of these three-dimensional surfactants on the interfacial tension of the system was ana
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Zulkefli, N. F., W. A. Wan Ab Karim Ghani, S. Ali, N. Asib, and Y. Chowmasundaram. "Development of bio-pesticides from bio-oil of oil palm biomass waste (palm kernel shell) against Metisa plana Walker bagworm (Lepidoptera: Psychidae)." Supplementary 1 5, S1 (2021): 137–43. http://dx.doi.org/10.26656/fr.2017.5(s1).041.

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Despite the abundance of palm-based residues generated, the by-products from thermochemical processing such as bio-oil may create value-added products to the palm industry. The palm-based derived bio-oil contains high aromatic compounds, which are active ingredients in the bio-pesticides formulation. Therefore, this study investigated the formulation of the bio-pesticide from this bio-oil and determines their effect on insect-pest in oil palm such as Metisa plana walker bagworm. Prior the formulation, preliminary evaluation of the compatibility between bio-oil and surfactants such as Tween 20
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Bragoni, Valentina, Raja K. Rit, Robin Kirchmann, A. Stefania Trita, and Lukas J. Gooßen. "Synthesis of bio-based surfactants from cashew nutshell liquid in water." Green Chemistry 20, no. 14 (2018): 3210–13. http://dx.doi.org/10.1039/c8gc01686k.

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Ballabio, Giorgia, Sara Sangiorgio, Eleonora Pargoletti, et al. "From dairy waste to value-added bio-based surfactants." Colloid and Interface Science Communications 63 (November 2024): 100807. http://dx.doi.org/10.1016/j.colcom.2024.100807.

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Zhu, Biwen, Nicolas Duguet, Guo-Rong Chen, and Marc Lemaire. "Direct Aldolization of Unprotected Fructose to Bio-Based Surfactants." ACS Sustainable Chemistry & Engineering 6, no. 9 (2018): 11695–703. http://dx.doi.org/10.1021/acssuschemeng.8b01953.

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Kipshagen, Lukas, Lukas T. Vömel, Marcel A. Liauw, et al. "Anionic surfactants based on intermediates of carbohydrate conversion." Green Chemistry 21, no. 14 (2019): 3882–90. http://dx.doi.org/10.1039/c9gc01163c.

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Duquet, Fanny, Amr Ahmed Nada, Matthieu Rivallin, Florence Rouessac, Christina Villeneuve-Faure, and Stéphanie Roualdes. "Influence of Bio-Based Surfactants on TiO2 Thin Films as Photoanodes for Electro-Photocatalysis." Catalysts 11, no. 10 (2021): 1228. http://dx.doi.org/10.3390/catal11101228.

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Photocatalytic water splitting into hydrogen is considered as one of the key solutions to the current demand for eco-responsible energy. To improve the efficiency and sustainability of this process, the development of a TiO2-based photoanode by adding bio-sourced surfactants to the sol–gel preparation method has been considered. Three different polymeric biosurfactants (GB, GC, and BIO) have been tested, giving rise to three different materials being structurally and morphologically characterized by XRD, Rietveld refinement, BET, SEM, AFM, and XPS, which was completed by light absorption, phot
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Hochegger-Krawanja, Markus, and Katalin Barta Weissert. "High-performing bio-based surfactants from renewable waste streams for the circular economy." Project Repository Journal 23, no. 1 (2025): 32–33. https://doi.org/10.54050/prj23206.

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High-performing bio-based surfactants from renewable waste streams for the circular economy The EIC Transition project PureSurf aims to bridge the gap between abundant renewable resources and the demand for sustainable, affordable, high-performance surfactants. Guided by the inherent structural features of renewable building blocks and green chemistry principles, a library of over 80 novel compounds has been generated that show significant performance improvements over their industrialised counterparts.
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Wibowo, Agam Duma Kalista, Pina Tiani, Lisa Aditya, Aniek Sri Handayani, and Marcelinus Christwardana. "Synthesis and Characterization of Polymeric Surfactant from Palm Oil Methyl Ester and Vinyl Acetate for Chemical Flooding." Reaktor 21, no. 2 (2021): 65–73. http://dx.doi.org/10.14710/reaktor.21.2.65-73.

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Surfactants for enhanced oil recovery are generally made from non-renewable petroleum sulfonates and their prices are relatively expensive, so it is necessary to synthesis the bio-based surfactants that are renewable and ecofriendly. The surfactant solution can reduce the interfacial tension (IFT) between oil and water while vinyl acetate monomer has an ability to increase the viscosity as a mobility control. Therefore, polymeric surfactant has both combination properties in reducing the oil/water IFT and increasing the viscosity of the aqueous solution simultaneously. Based on the study, the
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Pérusse, D., J. P. Guégan, H. Rolland, J. Guilbot, and T. Benvegnu. "Efficient solvent-free cationization of alkylpolyglycoside based surfactant compositions using natural glycine betaine." Green Chemistry 18, no. 6 (2016): 1664–73. http://dx.doi.org/10.1039/c5gc02214b.

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Gozlan, Charlotte, Elsa Deruer, Marie-Christine Duclos, et al. "Preparation of amphiphilic sorbitan monoethers through hydrogenolysis of sorbitan acetals and evaluation as bio-based surfactants." Green Chemistry 18, no. 7 (2016): 1994–2004. http://dx.doi.org/10.1039/c5gc02131f.

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Moldes, Ana B., Lorena Rodríguez-López, Myriam Rincón-Fontán, Alejandro López-Prieto, Xanel Vecino, and José M. Cruz. "Synthetic and Bio-Derived Surfactants Versus Microbial Biosurfactants in the Cosmetic Industry: An Overview." International Journal of Molecular Sciences 22, no. 5 (2021): 2371. http://dx.doi.org/10.3390/ijms22052371.

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This article includes an updated review of the classification, uses and side effects of surfactants for their application in the cosmetic, personal care and pharmaceutical industries. Based on their origin and composition, surfactants can be divided into three different categories: (i) synthetic surfactants; (ii) bio-based surfactants; and (iii) microbial biosurfactants. The first group is the most widespread and cost-effective. It is composed of surfactants, which are synthetically produced, using non-renewable sources, with a final structure that is different from the natural components of l
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Tropsch, Juergen. "A journey to standardization of bio-based surfactants in Europe." INFORM International News on Fats, Oils, and Related Materials 28, no. 6 (2017): 20–22. http://dx.doi.org/10.21748/inform.06.2017.20.

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Tropsch, Juergen. "A journey to standardization of bio-based surfactants in Europe." INFORM International News on Fats, Oils, and Related Materials 28, no. 06 (2017): 20–22. http://dx.doi.org/10.21748/inform.06.2017.22.

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Agger, Jane W., and Birgitte Zeuner. "Bio-based surfactants: enzymatic functionalization and production from renewable resources." Current Opinion in Biotechnology 78 (December 2022): 102842. http://dx.doi.org/10.1016/j.copbio.2022.102842.

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Sari-Chmayssem, N., F. Pessel, J. P. Guégan, S. Taha, H. Mawlawi, and T. Benvegnu. "Direct and one-pot conversion of polyguluronates and alginates into alkyl-l-guluronamide-based surfactant compositions." Green Chemistry 18, no. 24 (2016): 6573–85. http://dx.doi.org/10.1039/c6gc01983h.

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One-pot transformation of l-polyguluronates or alginates into 100% bio-based surfactants proceeded efficiently to provide novel long-chain alkyl-l-guluronamide/d-mannuronamide compositions as emulsion stabilizers.
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Vijai Kumar Reddy, T., G. Sandhya Rani, R. B. N. Prasad, and B. L. A. Prabhavathi Devi. "Green recyclable SO3H-carbon catalyst for the selective synthesis of isomannide-based fatty acid monoesters as non-ionic bio-surfactants." RSC Advances 5, no. 51 (2015): 40997–1005. http://dx.doi.org/10.1039/c5ra03605d.

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Verheyen, Geert R., Mart Theunis, Steven Vreysen, et al. "Glycine-acyl Surfactants Prepared from Black Soldier Fly Fat, Coconut Oil and Palm Kernel Oil." Current Green Chemistry 7, no. 2 (2020): 239–48. http://dx.doi.org/10.2174/2213346107999200424084626.

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: Black soldier fly (Hermetia illucens) larvae are a new source of high-quality bio-based materials that can be implemented for technical applications. Black soldier fly larvae can be bred in high numbers in small areas and organic waste streams, making large scale industrial breeding possible. Fats from the black soldier fly are very rich in lauric acid, and the fatty acid profile resembles that of palm kernel and coconut oil. Therefore, black soldier fly fats could be envisaged to have similar applications to these plant-derived oils. : The aims of this work were (1) to use black soldier fly
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Delage, Benoit, Benoit Briou, Thomas Brossier, Sylvain Catrouillet, Jean‐Jacques Robin, and Vincent Lapinte. "Polyoxazoline associated with cardanol for bio‐based linear alkyl benzene surfactants." Polymer International 68, no. 4 (2019): 755–63. http://dx.doi.org/10.1002/pi.5763.

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Fan, Zhaoyu, Yan Zhao, Florentina Preda, et al. "Preparation of bio-based surfactants from glycerol and dodecanol by direct etherification." Green Chemistry 17, no. 2 (2015): 882–92. http://dx.doi.org/10.1039/c4gc00818a.

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Sturm, Viktoriya, Myrna van Leeuwen, Ana Gonzalez-Martinez, David Verhoog, Nicolas Hark, and Niels de Beus. "Providing Insights into the Markets for Bio-Based Materials with BioMAT." Sustainability 15, no. 4 (2023): 3064. http://dx.doi.org/10.3390/su15043064.

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Knowledge-based policy making in the field of bio-based economy needs two elements: (i) a monitoring system for assessing the historical developments of bio-based industry and (ii) foresight capacities to provide prospects for the bio-based industry in the future and how it can contribute to achieving different targets. However, significant knowledge gaps in both areas exist, especially regarding the markets of bio-based materials in general and bio-based chemicals in particular. Against this background, a new consistent framework for the representation of the value chains of bio-based materia
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ARKHIPOV, V. P., та N. A. KUZINA. "СRITICAL MICELLE CONCENTRATION AND SOLUBILIZATION PROPERTIES OF BIOLOGICAL SURFACTANT - RHAMNOLIPID". Herald of Technological University 27, № 7 (2024): 18–22. https://doi.org/10.55421/1998-7072_2024_27_7_18.

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Biological surfactants are an alternative to synthetic surfactants due to their unique properties, high degree of biodegradability, low toxicity, low cost. The paper summarises the results of studies of micellar and solubilising properties of bio-surfactants on the example of unfractionated rhamnolipids produced by Pseudomonas aeruginosa with a molar ratio of mono- and diramnolipid in the mixture of ≈ 2/3. The critical micellization concentration (cmc) of aqueous solutions of rhamnolipids was measured by tensiometry, conductometry, dynamic light scattering, and diffusion NMR. The cmc values ob
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Zhang, Qi-Qi, Bang-Xin Cai, Hong-Ze Gang, Shi-Zhong Yang, and Bo-Zhong Mu. "A family of novel bio-based zwitterionic surfactants derived from oleic acid." RSC Advances 4, no. 72 (2014): 38393. http://dx.doi.org/10.1039/c4ra06851c.

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Penfold, J., and R. K. Thomas. "Adsorption properties of plant based bio-surfactants: Insights from neutron scattering techniques." Advances in Colloid and Interface Science 274 (December 2019): 102041. http://dx.doi.org/10.1016/j.cis.2019.102041.

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Toan, Mai, Jaehyouk Choi, Hang Thi Ngo, Jin-Young Bae, Seunghan Shin, and Kiok Kwon. "Synthesis of Novel Zwitterionic Surfactants: Achieving Enhanced Water Resistance and Adhesion in Emulsion Polymer Adhesives." Polymers 16, no. 24 (2024): 3504. https://doi.org/10.3390/polym16243504.

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Recent advancements in polymer materials have enabled the synthesis of bio-based monomers from renewable resources, promoting sustainable alternatives to fossil-based materials. This study presents a novel zwitterionic surfactant, SF, derived from 10-undecenoic acid obtained from castor oil through a four-step reaction, achieving a yield of 78%. SF has a critical micelle concentration (CMC) of 1235 mg/L, slightly higher than the commercial anionic surfactant Rhodacal DS-4 (sodium dodecyl benzene sulfonate), and effectively stabilizes monomer droplets, leading to excellent conversion and stable
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Zhang, Xiudong, Pei Zhang, Chunjun Chen, et al. "Fabrication of 2D metal–organic framework nanosheets with tailorable thickness using bio-based surfactants and their application in catalysis." Green Chemistry 21, no. 1 (2019): 54–58. http://dx.doi.org/10.1039/c8gc02835d.

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Luengo, Gustavo S., Fabien Leonforte, Andrew Greaves, Ramón G. Rubio, and Eduardo Guzmán. "Physico-chemical challenges on the self-assembly of natural and bio-based ingredients on hair surfaces: towards sustainable haircare formulations." Green Chemistry 25 (June 5, 2023): 7863–82. https://doi.org/10.1039/d3gc02763e.

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Polymers and surfactants are used in many technological and industrial applications such as the manufacture of functional materials and coatings, personal care and pharmaceutical products, food science, paints, anti-icing fluids, tertiary oil recovery and the paper industry. Polymer–surfactant mixtures are particularly important in shampoos and conditioners. However, as in almost every other industry over the past five or more decades, the performance of hair care formulations has been significantly improved by the use of petrochemical-derived ingredients. As a result, cosmetic formulati
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Kamada, Miho, Christel Pierlot, Valérie Molinier, Jean-Marie Aubry, and Kenji Aramaki. "Rheological properties of wormlike micellar gels formed by novel bio-based isosorbide surfactants." Colloids and Surfaces A: Physicochemical and Engineering Aspects 536 (January 2018): 82–87. http://dx.doi.org/10.1016/j.colsurfa.2017.07.037.

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Afolabi, Funsho, Syed M. Mahmood, Hamid Sharifigaliuk, Muhammad 'Izzat Hazim Bin Kamarozaman, and Fathin Natasha Najwa Binti Mohamed Mansor. "Investigations on the enhanced oil recovery capacity of novel bio-based polymeric surfactants." Journal of Molecular Liquids 368 (December 2022): 120813. http://dx.doi.org/10.1016/j.molliq.2022.120813.

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Jain, Mahendra, Kinjal Parikh, Ganesh Shevalkar, Parth Thakkar, and Rakhee Kapadia. "Introduction to functional performance of bio-based emulsifiers, natural preservatives, lipids, and natural surfactants." International Journal of Herbal Medicine 12, no. 1 (2024): 34–43. http://dx.doi.org/10.22271/flora.2024.v12.i1a.918.

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Irawan, Andre, Anas Miftah Fauzi, Erliza Hambali, Dwi Febriantini, and Siska Pebriani. "Bio Oil Spill Dispersant (Bio-OSD) Plant Location Selection Using the Analytical Hierarchy Process (AHP)." IOP Conference Series: Earth and Environmental Science 1513, no. 1 (2025): 012012. https://doi.org/10.1088/1755-1315/1513/1/012012.

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Abstract The establishment of a Bio-OSD plant in Indonesia represents a strategic initiative to utilize renewable and environmentally friendly palm oil-based surfactants as alternatives to commercial oil spill dispersant (OSD) products. Determining the optimal plant location is essential. This study aims to evaluate the feasibility of Bio-OSD plant locations by considering three alternatives: Jakarta, Gresik, and Medan. The Analytical Hierarchy Process (AHP) method was employed to assess critical criteria, including access to raw materials, land costs, availability of transportation facilities
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Muheem, Abdul, Mohammed Asadullah Jahangir, Sanjula Baboota, and Javed Ali. "Recent patents and a market overview on green or bio-based solvents for chromatographic analysis: a review." Pharmaceutical Patent Analyst 10, no. 6 (2021): 227–35. http://dx.doi.org/10.4155/ppa-2021-0015.

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Green solvents (GS) in chromatography originate from green chemistry. Therefore, using GSs in liquid chromatographic analysis to separate drugs and chemicals is an emerging approach to reduce hazardous chemicals in nature. The Orbit Intelligence database was used to conduct a strategic patent search for peer-reviewed patents on GSs as a mobile phase for chromatographic analysis. This article reported numerous approaches for encouraging GSs such as ethanol, butanol, esters, polyethylene glycol, supercritical fluids and nonionic surfactants to analyze drugs or compounds. The main aim of this art
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Puente-Santamaría, Ana, Josselyn N. Molina-Basurto, Eva Gerardin, Francisco Ortega, Ramón G. Rubio, and Eduardo Guzmán. "Hydrogen bond-driven interactions between chitosan and biobased surfactants: A study of bulk behavior and surface adsorption." Journal of Molecular Liquids 425 (March 3, 2025): 127259. https://doi.org/10.1016/j.molliq.2025.127259.

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This study explores the hydrogen bond-mediated association between chitosan (CHI) and alkyl polyglucoside (APG), a bio-based surfactant, in acidic conditions with varying ionic strengths. Unlike conventional polyelectrolyte-surfactant interactions that depend on electrostatic forces, the association in this system relies purely on non-ionic interactions. Using UV–visible spectroscopy, phase diagrams, and quartz crystal microbalance with dissipation monitoring (QCM-D), the bulk phase behavior and adsorption characteristics of CHI-APG mixtures on negatively charged surfaces was studied. Re
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