DOCSLIB.ORG

Limoncello and the Science of Emulsions

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Limoncello and the Science of Emulsions Chemistry, Physics | UNDERSTAND The peel of lemons contains essential oils, which are extracted in the production of limoncello. IgorZh/Shutterstock.com Limoncello and the science of emulsions How can you make oil and water stay mixed? A scientist’s curiosity about a lemon liqueur has revealed how to do this – with some promising industrial applications. By Leonardo Chiappisi Limoncello, the fragrant Italian liqueur made from lemons, is then mixed with a sugar syrup. Limoncello typically contains becoming increasingly popular around the world. This sweet approximately 30% alcohol and around 20% sucrose (sugar) and citrus digestif is an iconic item of Italian food culture – by volume, but as limoncello is often home made, the but it is also a complex colloidal system made of essential preparation method and final composition vary from family oils, ethanol, sucrose and water. to family. As an Italian chemist working at the Institut Laue-Langevin The essential oils so important to the flavour of limoncello (ILL)w1, I was curious to find out what ILL’s advanced are found in small pockets in the peel of citrus fruits, technology might reveal about this complex system. So, which burst and deliver the typical strong scent we notice earlier this year, my colleagues and I applied for beamline when peeling such fruit. These essential oils have a very time to conduct a small study, and it turns out that – as well complex composition: more than 60 different molecules as being delicious – limoncello has some rather special have been identified, with a class of organic molecules scientific characteristics. called monoterpenes being the main components. In lemons, the most abundant compound is limonene What is limoncello? (figure 1). In the traditional limoncello recipe, the citrus zest (obtained Limoncello is made by mixing two solutions: the ethanolic by scraping the outer part of the lemon peel) is macerated in extract containing the oils, and the aqueous sucrose solution. alcohol (ethanol) for several weeks. The zest contains most of Each of these starting solutions is completely transparent; the essential oils in lemons, producing the characteristic taste limoncello itself, however, is ‘turbid’, with a cloudy, opaque and colour of the liqueur. The ethanol and lemon extract is appearance. Turbid systems pervade everyday life: other 12 I Issue 48 : Autumn 2019 I Science in School I www.scienceinschool.org UNDERSTAND | Chemistry, Physics Surfactants Neutron scattering Phase diagrams Ages 16–19 Most students will recognise that oil and water do not Comprehension questions that could be used in class include: mix, and they may have heard the word ‘emulsion’ when · The limonene molecule has two possible enantiomers. helping a family member paint a room – but despite Identify the chiral carbon atom. these real-world examples, very few will have questioned · What volume of ethanol would you expect 5 litres of the chemistry behind such experiences. By encouraging limoncello to contain? students to question what is happening on a macro level · Turbid systems contain particles at a scale comparable and inspiring them with the chemistry occurring on a to the wavelength of visible light. What is the micro level, this article provides an accessible gateway to wavelength range of visible light? some key concepts. · Why could the science of limoncello prove useful for In addition, there is an opportunity to interpret a three- designing self-emulsifying systems? fold phase diagram, which allows students to use their · The phase diagram contains a ‘metastable ouzo mathematical skills to derive conclusions about physical region’. What is meant by the term ‘metastable’? characteristics, demonstrating that such skills are essential REVIEW Caroline Evans, Head of Chemistry, for scientific research. Wellington College, UK examples include ice crystals in a suspension of tiny droplets of one to form the emulsion. Lecithin and clouds, fat droplets in milk, and algae liquid in another. However, this only proteins contained in the egg yolk are in a pond. These different systems all happens at some specific ranges of also needed to stabilise the emulsion. contain particles or droplets at the scale composition (see phase diagram So why are ouzo systems important of hundreds of nanometres, which is text box). outside the kitchen? Some important comparable to the wavelength of visible This phenomenon of spontaneous industrial processes take place light. It is these ‘heterogeneities’ – tiny emulsion formation is called the ‘ouzo in emulsions – for example, amounts of solid or liquid suspended in effect’, after the famous Mediterranean polymerisation, where small molecules a fluid medium – that give these systems drink called ouzo that immediately (monomers) combine to form large their turbid appearance. becomes turbid when mixed with water, macromolecules, or polymers. Here, forming an emulsion. Indeed, ouzo emulsions are often created to bring The ‘ouzo effect’ is, from a scientific perspective, quite the reagents into close proximity so the So where does the turbidity of similar to limoncello, as it is made reaction can proceed quickly. If such limoncello come from? Water and from water, ethanol and the flavour ethanol are fully miscible (soluble component anethole, which – like Jorge Royan/Wikimedia Commons, CC BY-SA 3.0 BY-SA CC Commons, Royan/Wikimedia Jorge in each other), as are limonene and limonene – is highly soluble in ethanol ethanol – but limonene and water but only slightly soluble in water. are barely miscible. In limoncello, In contrast to these ouzo systems, this combination of three liquids spontaneously produces an ‘emulsion’: typical emulsions require a very high Nicola Graf Nicola energetic input – such as the shaking and stirring required to make the CH3 emulsion we call mayonnaise. Another very important difference between C ouzo systems and classical emulsions H C CH 2 is the absence of any stabilising agents. For example, mayonnaise is prepared H2C CH2 CH by emulsifying a vegetable oil with the water contained in egg yolk. The C process is long and tedious, and it CH H2C 3 requires a substantial amount of energy – provided by vigorous shaking and Figure 1: The structure of limonene stirring – to make the two liquids mix Limoncello bottles for sale in Capri, Italy www.scienceinschool.org I Science in School I Issue 48 : Autumn 2019 I 13 Chemistry, Physics | UNDERSTAND canbilgic/Shutterstock.com The ouzo effect: PhotoAZ/Shutterstock.com the Mediterranean drink ouzo (centre) immediately turns cloudy (right) when water (left) is added to it. Making mayonnaise requires not only the right ingredients to create the emulsion, but also quite a lot of energy. emulsions form spontaneously (as in under different conditions: when water 100 nanometres in diameter, regardless limoncello), requiring very little energy is added to the ethanolic extract; at of water content, sugar content input, if any, this obviously makes the different temperatures; and at different or temperature. These results are process more efficient and sustainable. sucrose concentrations (Chiappisi & surprising: the typical size of the oil-rich In addition, the polymer product needs Grillo, 2018). Neutrons are sensitive to domains in ouzo systems is normally to be recovered from the reaction the isotopic composition of the system, much larger, at several hundreds or medium at the end of the reaction, and they interact very differently with even thousands of nanometres in which is often the most challenging size (Grillo, 2003). In addition, their step of the entire process. However, if size is usually very sensitive to the composition or the temperature of the the system contains no stabilisers, the Limoncello can be kept extraction of the polymer and catalysts “ system – unlike in limoncello. is much simpler, as the components in the bottle for years: This makes limoncello a very interesting can easily separate once the emulsion- liquid, scientifically. The small size forming composition no longer exists. not bad for a metastable of the oil droplets seems to provide Another widely used application of system! its exceptional stability in relation emulsions is in pesticides, to enable ” to changes of temperature and these water-insoluble products to be composition, and also over time. In fact, diluted and spread onto fields. Using limoncello can be kept in the bottle for the two stable isotopes of hydrogen: an ouzo-type emulsion would avoid years: not bad for a metastable system! protium, 1H (normal hydrogen), and In contrast, drinks like pastis or ouzo also spreading unnecessary surfactants, the much rarer deuterium, 2H. In the tend to phase separate within a few which are often harmful to the research, the essential oil was extracted hours of preparation (which is why a environment. from a lemon bought in the local market pastis is always diluted with water in the (thus containing mostly protium nuclei), glass, just before consumption). Limoncello at the micro level while the ethanol and water were highly enriched with deuterium nuclei, as a So while we don’t yet fully understand As mentioned, the way limoncello contrast. why limoncello behaves so differently scatters light is quite revealing about to other ouzo-type drinks, we now have The analysis revealed that, in the liquid’s structure at the microscopic a better understanding of the science of limoncello, the size of the oil-rich level. Using radiation of shorter self-emulsifying systems – and how to domains is always around wavelength, X-rays or neutron beams design them for use in future products allow us to look in more detail at and processes. A Chezière/ILL structures and interactions within this References liquid, and at an even smaller scale. Chiappisi L, Grillo I (2018) Looking into We hoped to use the neutron scattering Limoncello: the structure of the Italian liquor facilities at ILL to see what they could revealed by small-angle neutron scattering. tell us about limoncello – and, luckily, ACS Omega 3: 15407-15415. doi: 10.1021/ we were allocated time on the small- acsomega.8b01858 angle neutron scattering (SANS) Grillo I (2003) Small-angle neutron scattering study of a world-wide known emulsion: beamline.
Load more

Recommended publications
  • Nanoparticles and Nanocapsules Created Using the Ouzo Effect
    Nanoparticles and Nanocapsules Created Using the Ouzo Effect: Spontaneous Emulsification as an Alternative to Ultrasonic and High-Shear Devices FranÅois Ganachaud*[a] and Joseph L. Katz[b] The preparation of polymeric particles and capsules by means of solvent and a hydrophobic oil—and optionally some water— spontaneous droplet formation and subsequent polymer precipi- thus generating long-lived small droplets, which are formed even tation or synthesis is well-known. However, spontaneous emulsifi- though no surfactant is present. Herein, we review and reinter- cation is a phenomenon that has often been erroneously inter- pret the most relevant publications on the synthesis of a variety preted. This Minireview provides new insights into the prepara- of dispersions (pseudolatexes, silicone emulsions, biodegradable tion of metastable liquid dispersions by homogeneous liquid– polymeric nanocapsules, etc.), which we believe have actually liquid nucleation, and is based primarily on a recent study by been synthesized using the Ouzo effect. The Ouzo effect may also Vitale and Katz (Langmuir, 2003, 19, 4105–4110). This spontane- become a substitute for high-shear techniques, which, to date, ous emulsification, which they named the Ouzo effect, occurs have only been of limited utility on industrial scales. upon pouring, into water, a mixture of a totally water-miscible 1. Introduction Well-known aperitifs (Ouzo in Greece, Pastis in France, etc.) are in the phase diagram of these mixtures there is a region, be- ethanol extracts of anis seeds. Upon dilution with water, such tween the spinodal and the binodal curves, where a metasta- extracts, whose major components are water, ethanol, and the ble dispersion can be generated (Figure 2).
    [Show full text]
  • A Toast to Dynamic NMR Spectroscopy: Towards a Better Comprehension of Palatable Emulsions
    VOL. 21 NO. 5 (2009) AARTICLERTICLE A toast to dynamic NMR spectroscopy: towards a better comprehension of palatable emulsions David Carteau, Isabelle Pianet and Dario M. Bassani Institut des Sciences Moléculaires, CNRS UMR 5255, Université Bordeaux 1, 351 Cours de la Libération, 33405 Talence France. E-mail: [email protected] Introduction and aniseed. One of the most intriguing cules that are in different environments.5 Memories of summer vacations on the properties of t-A, however, is its capabil- In many occurrences, however, the NMR Mediterranean would not be complete ity to undergo spontaneous emulsifica- spectra of emulsions are not very inform- without recollections of the refresh- tion upon rapid dilution of a concentrated ative due to inhomogeneous line-broad- ing anise-flavoured alcoholic beverages solution with a miscible but non-solubilis- ening of the signals. Surprisingly, this is served during the hot afternoons. Though ing solvent. This phenomenon, for which not the case for emulsions of t-A in water, varying in name and composition across the term “ouzo effect” has been coined though, as convincingly shown in Figure cultures (Raki in Turkey, Arak in Lebanon, by some authors,2 is responsible for the 1. The sharp and clearly distinguishable Ouzo in Greece, Sambuca in Italy and cloudy aspect of the above-mentioned signals are attributed to t-A located in Pastis in France), extracts from star anis beverages as the alcohol content of the different environments: a moderately (Illicium floridanum) are a common prin- hydro-alcoholic solution is dropped from polar aromatic environment within the cipal ingredient of the plant extracts used above 40% to ca 5% v/v and affects the aggregates, and a hydrophilic aqueous in their production.
    [Show full text]
  • 3-D Silk Fibroin Porous Particles Created by the Ouzo Effect for Biomedical Applications
    UNLV Theses, Dissertations, Professional Papers, and Capstones 5-1-2020 3-D Silk Fibroin Porous Particles Created by the Ouzo Effect for Biomedical Applications Ashley Nicole Lamb Follow this and additional works at: https://digitalscholarship.unlv.edu/thesesdissertations Part of the Biomechanical Engineering Commons, Biomedical Commons, and the Biomedical Devices and Instrumentation Commons Repository Citation Lamb, Ashley Nicole, "3-D Silk Fibroin Porous Particles Created by the Ouzo Effect for Biomedical Applications" (2020). UNLV Theses, Dissertations, Professional Papers, and Capstones. 3914. http://dx.doi.org/10.34917/19412108 This Thesis is protected by copyright and/or related rights. It has been brought to you by Digital Scholarship@UNLV with permission from the rights-holder(s). You are free to use this Thesis in any way that is permitted by the copyright and related rights legislation that applies to your use. For other uses you need to obtain permission from the rights-holder(s) directly, unless additional rights are indicated by a Creative Commons license in the record and/ or on the work itself. This Thesis has been accepted for inclusion in UNLV Theses, Dissertations, Professional Papers, and Capstones by an authorized administrator of Digital Scholarship@UNLV. For more information, please contact [email protected]. 3-D SILK FIBROIN POROUS PARTICLES CREATED BY THE OUZO EFFECT FOR BIOMEDICAL APPLICATIONS By Ashley Lamb Bachelor of Science in Engineering – Mechanical Engineering University of Nevada, Las Vegas 2018
    [Show full text]
  • Small-Angle Neutron Scattering Study of a World-Wide Known Emulsion: Le Pastis
    Colloids and Surfaces A: Physicochem. Eng. Aspects 225 (2003) 153Á/160 www.elsevier.com/locate/colsurfa Small-angle neutron scattering study of a world-wide known emulsion: Le Pastis Isabelle Grillo Institut Laue-Langevin, Large Scale Structures, 6 rue Jules Horowitz, B.P. 156, 38042 Grenoble Cedex 9, France Received 20 February 2003; accepted 12 June 2003 Abstract ‘Pastis’ is a famous aniseed based beverage, symbolic of hot summer days in the south of France. But who really knows the origin of the milky color when adding water? Each time you drink a glass of ‘Pastis’, you observe a complex phenomenon in physical chemistry! Pastis is mainly composed of anethol, an aromatic molecule, water, ethanol and additive compounds that improve the taste. Anethol has a very low solubility in water and further addition of water to the ‘dry’ preparation induces the formation of an emulsion made of large anethol droplets in a water-plus-ethanol solvent that scatter light. The origin of the spontaneous formation of the emulsion is a well-known phenomenon, which appears in liquid systems with three or more compounds, when the sample composition is trapped between the binodal and spinodal curves on the phase diagram. The radius of the droplets has been determined using the small-angle neutron scattering technique (D22, Institut Laue-Langevin, Grenoble). Of the order of a micron, the droplet size depends on the anethol/ethanol volume ratio and grows with time and temperature. # 2003 Elsevier Science B.V. All rights reserved. Keywords: Anethol; Spontaneous emulsion; Small-angle neutron scattering; Porod’s law 1.
    [Show full text]
  • Methods and Techniques
    This doctoral thesis was made out at the Institute of Physical and Theoretical Chemistry, University of Regensburg, between November 2012 and October 2015 and under the supervision of Prof. Dr. Werner Kunz. I would like to thank many people for their help and support throughout these years. First of all, I would like to thank Prof. Dr. Werner Kunz for welcoming me and giving me the opportunity to prepare my thesis at his institute. Thank you for the numerous ideas, advices and discussions and for the time you invested to follow my work. Thank you also for this interesting topic that I had the chance to present at many conferences. I also express my gratitude to Dr. Didier Touraud for his great help, his availability and his amazing ideas. Thank you for all the corrections and advices regarding the publications, and for taking the time to discuss any subject with me. Merci! I deeply thank Prof. Dr. Thomas Zemb and Dr. Olivier Diat at the Institut de Chimie Séparative de Marcoule, France, for their help, explanations and guidance regarding the small- and wide- angle x-ray scattering and the small-angle neutron scattering techniques. Many thanks for the interest you gave to my work. Thanks to PD Dr. Rainer Müller and Prof. Dr. Richard Buchner for letting me use their equipment. Special thanks to Rosi and Sonja for their help, their kindness, and their good mood every day! I would like to thank all my colleagues for all the scientific help and especially for the fantastic atmosphere at the institute.
    [Show full text]
  • Physrevfluids.4.100502
    PHYSICAL REVIEW FLUIDS 4, 100502 (2019) Gallery of Fluid Motion Shaky life of a water drop in an anise oil-rich environment Óscar R. Enríquez ,1,* Daniel Robles,2 Pablo Peñas-López,3 and Javier Rodríguez-Rodríguez1 1Fluid Mechanics Group, Carlos III University of Madrid, 28911 Leganés, Madrid, Spain 2Centro de Ciencias de la Atmósfera, Universidad Nacional Autónoma de México, México DF, México 3Physics of Fluids Group, University of Twente, Enschede, The Netherlands (Received 4 February 2019; published 24 October 2019) This paper is associated with a video winner of a 2018 APS/DFD Milton van Dyke Award for work presented at the DFD Gallery of Fluid Motion. The original video is available online at the Gallery of Fluid Motion, https://doi.org/10.1103/APS.DFD.2018. GFM.V0054 DOI: 10.1103/PhysRevFluids.4.100502 We illustrate the rich physical phenomena that can arise in certain kinds of three-liquid mixtures. In this particular case, we use anethole (anise oil), ethanol, and water. The situation can be humorously compared to a “love triangle” enacted by fluids: anethole and ethanol are miscible (they “love” each other), and so are water and ethanol; however, water and anethole are only sparingly soluble (they “hate” each other). Put the three together, and ... The best-known example of this type of mix is termed the ouzo effect and is seen upon adding water to anise-based alcoholic drinks (ouzo, pastis, raki, anís, arak, absinthe, etc.), which triggers the emulsification of anise oil, giving these drinks their characteristic milky aspect. However, this is interesting not only for enjoying drinks but also in exploring spontaneous solvent separation processes, the formation of nanodroplets, microemulsions, and more.
    [Show full text]
  • Menu Bev Book 10:16
    Beverages See Main Menu for New, Seasonal, & Specials ! Custom Pairings, Tastings & Bar Services for groups or individually by appointment, as well as Events for all of our Beverages. Inquiries @ our Front Desk. Striving to offer the finest beverage selection @ the best value ! Please leave a request at the Front Desk should you wish for an item not listed ! Not all items are stocked at our bars, some are in the basement & will take a moment to provide. Due to limited production, changing distribution, acts of God, Etc. - all items may be limited. Pricing may change w/out notice. Product info listed is derived directly from the bottle or the manufacturer’s website. Proof, ABV, & such listed right after products name. General Info courtesy of the free web ! Abiding by all NYS Liquor Authority Rules, Regulations pertinent to service under our License, as well as common sense, & reserving the right to refuse service to anyone for any reason - for over 30 Years. Please enjoy responsibly ! “Spirits are a wonderful servant but a terrible master”. Thank You for your Patronage ! !!!INDEX ! !1 - 12!BEER ASK SERVER FOR DRAFT CHOICES - SEE MAIN MENU FOR NEW BEERS !!14!HARD CIDERS & PERRIES !!15!MEADS & BRAGGOTS ! !16-17!SODA!H2O!SYRUPS!JUICE !!18!COFFEE!ESPRESSO!CAPPUCINO!+ SPIRITS !!19!TEA!SEASONAL !!20!SPARKLING !!21!FROZEN & 16 OZ CLASSIC / NEW !!22!COCKTAILS !!23!AROMATIZED WINE & APERITIFS ! !24-25!DIGESTIFS, AMARI, HERBALS !!26!ABSINTHE & PASTIS ! !27-29!LIQUEURS, CORDIALS & CREME LIQUEURS !30-32!VODKA !!33!GIN !!34!RUM ! !35-36!TEQUILA & MEZCAL ! !36-37!GRAPPA & EAU-DE-VIE ! !37-38!ARMAGNAC, COGNAC !!39!BRANDY !40-42!SHERRY & MADEIRA !!43!DESSERT WINE !44-47!PORT !!48!WHISKEY & WHISKY !49-51!AMERICAN BOURBON ! !52-53!AMERICAN STRAIGHT RYE !!54!AMERICAN, TENNESSEE, & CANADIAN !!55! IRISH & SINGLE MALT !!56!BLENDED SCOTCH ! !57-59!SINGLE MALT SCOTCH !!!BEERS Serving temps of beer influence’s the drinking experience.
    [Show full text]
  • How to Explain Microemulsions Formed by Solvent Mixtures Without Conventional Surfactants
    How to explain microemulsions formed by solvent mixtures without conventional surfactants Thomas N. Zemba,1, Michael Klossekb, Tobias Lopiana,b, Julien Marcusb, Sebastian Schöettlb, Dominik Horinekb, Sylvain F. Prevostc, Didier Touraudb, Olivier Diata, Stjepan Marceljaˇ d, and Werner Kunza,b,1 aICSM (Institut de Chimie Séparative de Marcoule), UMR 5257 (Commissariat a l’energie atomique et aux energies alternatives/CNRS/Ecole Nationale Supérieure de Chimie de Montpellier, Université de Montpellier), 30207 Bagnols sur Cèze, France; bInstitut für Physikalische und Theoretische Chemie, Universität Regensburg, 93053 Regensburg, Germany; cEuropean Synchrotron Radiation Facility (ESRF), 38043 Grenoble, CEDEX 9, France; and dDepartment of Applied Mathematics, Research School of Physics & Engineering, Australian National University, Canberra, ACT 0200, Australia Edited by Monica Olvera de la Cruz, Northwestern University, Evanston, IL, and approved February 26, 2016 (received for review August 7, 2015) Ternary solutions containing one hydrotrope (such as ethanol) and enough to get a macroscopically homogeneous, stable, transparent two immiscible fluids, both being soluble in the hydrotrope at any one-phase system. Surprisingly, these one-phase systems are struc- proportion, show unexpected solubilization power and allow strange tured as revealed by combined X-ray and neutron scattering (2). In but yet unexplained membrane enzyme activity. We study the system analogy to the Ouzo effect, which is related to relatively stable fine ethanol-water-octanol as a simple model of such kinds of ternary emulsions without surfactants, we named the unexpected structur- solutions. The stability of “detergentless” micelles or microemulsions in ing in these monophasic systems the pre-Ouzo effect, emphasizing such mixtures was proposed in the pioneering works of Barden and that it occurs before the system is diluted with so much water that it coworkers [Smith GD, Donelan CE, Barden RE (1977) J Colloid Interface phase-separates (9).
    [Show full text]
  • Thesis Submitted in Candidature for the Degree of Doctor of Philosophy
    University of Bath PHD Phase inversion temperature emulsification: from batch to continuous process Marino, Helene Award date: 2010 Awarding institution: University of Bath Link to publication Alternative formats If you require this document in an alternative format, please contact: [email protected] General rights Copyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights. • Users may download and print one copy of any publication from the public portal for the purpose of private study or research. • You may not further distribute the material or use it for any profit-making activity or commercial gain • You may freely distribute the URL identifying the publication in the public portal ? Take down policy If you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim. Download date: 11. Oct. 2021 Phase Inversion Temperature Emulsification: From Batch to Continuous Process Helene Marino A thesis submitted in candidature for the degree of Doctor of Philosophy University of Bath Department of Chemical Engineering April 2010 Copyright: Attention is drawn to the fact that copyright of this thesis rests with its author. A copy of this thesis has been supplied on condition that anyone who consults it is understood to recognise that its copyright rests with the author and they must not copy it or use material from it except as permitted by law or with the consent of the author.
    [Show full text]
  • S41567-019-0639-9.Pdf
    research highlights EXOPLANETS of rock, their expected radii are also BIOMIMETICS Star companions similar to Earth’s radius — they might The best of both eyes Astron. Astrophys. 627, A49 (2019) even be habitable. SR Adv. Funct. Mater. 29, 1903340 (2019) https://doi.org/10.1038/s41567-019-0639-9 Naturally evolved eyes have their strengths and weaknesses. Compound eyes allow insects FLUID DYNAMICS to see over a wide range of angles, but the Love–hate liquids fixed focal length limits resolution and depth Phys. Rev. Fluids (in the press) perception. Vertebrate eyes, on the other hand, are varifocal but have a small field of view. The ‘ouzo effect’ refers to the stable Zhuo-Chen Ma and colleagues have combined microemulsion that forms when the two principles and made an artificial anise-based liqueur is mixed with water. compound lens with variable focal length. And it can be understood as something The lens comprises approximately 80 of a love triangle: the anethole and individual facets arranged in a hexagonal ethanol in ouzo are miscible, and ethanol pattern — similar to a dragonfly eye — and was fabricated from the protein bovine serum Credit: NASA/Walt Feimer plays well with water, but the third pairing is antagonistic, resulting in albumin using direct laser lithography. The that familiar milky emulsion. Oscar protein reacts to a change in the pH value of When we gaze at the northern celestial Enríquez and colleagues have captured its environment by swelling or shrinking and hemisphere, we might observe a few stars of the dynamics of a water droplet therefore with a change of focus and of the the Aries constellation.
    [Show full text]
  • Surfactant Free Microemulsions: Possible Applications for Solubilisation and Extraction of Hydrophobic Components
    Surfactant free microemulsions: possible applications for solubilisation and extraction of hydrophobic components Jurko, Lucija Master's thesis / Diplomski rad 2017 Degree Grantor / Ustanova koja je dodijelila akademski / stručni stupanj: University of Split, Faculty of Chemistry and Technology / Sveučilište u Splitu, Kemijsko-tehnološki fakultet Permanent link / Trajna poveznica: https://urn.nsk.hr/urn:nbn:hr:167:147644 Rights / Prava: In copyright Download date / Datum preuzimanja: 2021-10-01 Repository / Repozitorij: Repository of the Faculty of chemistry and technology - University of Split UNIVERSITY OF SPLIT FACULTY OF CHEMISTRY AND TECHNOLOGY SURFACTANT-FREE MICROEMULSIONS: POSSIBLE APPLICATIONS FOR SOLUBILISATION AND EXTRACTION OF HYDROPHOBIC COMPONENTS DIPLOMA THESIS Lucija Jurko Parent number: 58 Split, October 2017. UNIVERSITY OF SPLIT FACULTY OF CHEMISTRY AND TECHNOLOGY Graduate study of Chemistry Orientation: Organic Chemistry and Biochemistry SURFACTANT-FREE MICROEMULSIONS: POSSIBLE APPLICATIONS FOR SOLUBILISATION AND EXTRACTION OF HYDROPHOBIC COMPONENTS DIPLOMA THESIS Lucija Jurko Parent number: 58 Split, October 2017. SVEUČILIŠTE U SPLITU KEMIJSKO-TEHNOLOŠKI FAKULTET Diplomski studij Kemija Smjer: Organska kemija i biokemija MIKROEMULZIJE BEZ PRISUTNOSTI SURFAKTANTA: MOGUĆE PRIMJENE ZA OTAPANJE I EKSTRAKCIJU HIDROFOBNIH KOMPONENATA DIPLOMSKI RAD Lucija Jurko Matični broj: 58 Split, listopad BASIC DOCUMENTATION CARD DIPLOMA THESIS University of Split Faculty of Chemistry and Technology Split Graduate study of Chemistry Scientific area: Natural Sciences Scientific field: Chemistry Thesis subject was approved by Faculty Council of Faculty of Chemistry and Technology, session no 21. Mentor: Vesna Sokol, PhD, Associate professor Technical assistance: Sebastian Krickl, M. Sc. Surfactant-free microemulsions: possible applications for solubilisation and extraction of hydrophobic components Lucija Jurko, 58 Abstract: This work deals with surfactant-free microemulsions (SFME) and is composed of two parts.
    [Show full text]
  • The Life of an Anise-Flavored Alcoholic Beverage: Does Its Stability Cloud Or Confirm Theory?
    Langmuir 2008, 24, 1701-1706 1701 The Life of an Anise-Flavored Alcoholic Beverage: Does Its Stability Cloud or Confirm Theory? Elke Scholten,†,§ Erik van der Linden,*,† and Herve This‡ Food Physics Group, Department of Agrotechnology and Food Sciences, Wageningen UniVersity, Bomenweg 2, 6703 HD Wageningen, The Netherlands, and INRA Group of Molecular Gastronomy, Laboratory of Chemistry, UMR 214 INRA/AgroParisTech, 16 rue Claude Bernard, 75005 Paris, France ReceiVed July 19, 2007. In Final Form: NoVember 6, 2007 The well-known alcoholic beverage Pastis becomes turbid when mixed with water due to the poor solubility of trans-anethol, the anise-flavored component of Pastis in the water solution formed. This destabilization appears as the formation of micrometer-sized droplets that only very slowly grow in size, thus expanding the life of the anise- flavored beverage. The slow growth has been attributed to an extremely low interfacial tension of the droplets. Fitting experimental droplet growth rates to an Ostwald ripening model, interfacial tensions were deduced in the past. Direct determination of the interfacial tensions was not yet reported on these systems. We have measured the interfacial tensions and used these data to predict droplet growth rates using an Ostwald ripening model and a model for creaming of the droplets. The interfacial tension was measured to be about 11 mN/m for a 30/70 w/w % ethanol/water mixture, and it decreases slightly to a value of 1.4 mN/m in the case of a 70/30 w/w % ethanol/water mixture. These values are not as low as those deduced in the past.
    [Show full text]