Ionic liquids are excellent substitutes for traditional organic solvents in many typical organic reactions, often producing higher selectivity as well as higher yields, and enhancing the reaction rate.
Additionally, they can serve as catalyst immobilization for the easy recycling of homogeneous catalysts without need for special functionalization, and have been successfully employed as electrolytes in electrochemistry. "Tailor-made" solvents (optimization of the ionic liquid's characteristics) can be achieved through a broad choice of anion and cation combinations. Ionic liquids are attractive solvents as they are non-volatile, non-flammable, have a high thermal stability and are relatively inexpensive to manufacture. They usually exist as liquids well below room temperature up to a temperature as high as 200oC.
The key point about ionic liquids is that they are liquid salts, which means they consist of a salt that exists in the liquid phase. They are not simply salts dissolved in liquid. Usually one or both of the ions is particularly large and the cation has a low degree of symmetry, these factors result in ionic liquids having a reduced lattice energy and hence lower melting points.Many ionic liquids have even been developed for specific synthetic problems. For this reason, ionic liquids have been termed "designer solvents".
Its a small presentation made on ionic liquids with special emphasis on its use in Friedel crafts reactions.It explains what are ionic liquids,their properties and uses.
Ionic Liquids : Green solvents for the futureMrudang Thakor
Ionic Liquids are entirely made up of Ions also known as Room Temperature Ionic Liquids (RTILs).
They are in demand because of their unmatchable uses and applications in the field of chemistry.
ILs is a group of new organic salts that exist in the liquid state at relatively low temperatures. Ionic liquids have different properties than solid ionic compounds. Besides of these unique properties, ionic liquids have a number of useful applications.
Its a small presentation made on ionic liquids with special emphasis on its use in Friedel crafts reactions.It explains what are ionic liquids,their properties and uses.
Ionic Liquids : Green solvents for the futureMrudang Thakor
Ionic Liquids are entirely made up of Ions also known as Room Temperature Ionic Liquids (RTILs).
They are in demand because of their unmatchable uses and applications in the field of chemistry.
ILs is a group of new organic salts that exist in the liquid state at relatively low temperatures. Ionic liquids have different properties than solid ionic compounds. Besides of these unique properties, ionic liquids have a number of useful applications.
Protecting group (PG) is a small molecule, to mask temporarily the a specific functional group of a molecule from undergoing reaction, allowing the rest of the functional groups present in the molecule to react without affecting the original reactivity and leave from the host molecule without affecting the rest of the functional groups.
The addition of protecting groups to functional groups is termed ‘protection’ and removal of protecting group is ‘deprotection’.
Solventless reaction in green chemistryAfrin Nirfa
Solventless reactions or solid state reactions are one of the principles involved in green chemistry. these reactions are more useful because the toxicity of solvents are reduced, easy to handle, cheaper and makes environment friendly.
Power Point Presentation on GREEN CHEMISTRY
(info on pollution, causes and its prevention)
Friends if you found this helpful please click the like button. and share it :)
zeolites, types, nature, synthetic, processes, Deposits and properties;Physical characteristics of some naturally occurring zeolites; molecular sieves;Adsorption and related molecular sieving; zeolite catalysts
Protecting group (PG) is a small molecule, to mask temporarily the a specific functional group of a molecule from undergoing reaction, allowing the rest of the functional groups present in the molecule to react without affecting the original reactivity and leave from the host molecule without affecting the rest of the functional groups.
The addition of protecting groups to functional groups is termed ‘protection’ and removal of protecting group is ‘deprotection’.
Solventless reaction in green chemistryAfrin Nirfa
Solventless reactions or solid state reactions are one of the principles involved in green chemistry. these reactions are more useful because the toxicity of solvents are reduced, easy to handle, cheaper and makes environment friendly.
Power Point Presentation on GREEN CHEMISTRY
(info on pollution, causes and its prevention)
Friends if you found this helpful please click the like button. and share it :)
zeolites, types, nature, synthetic, processes, Deposits and properties;Physical characteristics of some naturally occurring zeolites; molecular sieves;Adsorption and related molecular sieving; zeolite catalysts
Ionic Liquid Pretreatment
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An introduction to the use of ICP-MS in the clinical setting, that goes on to describe some potential new application areas for advanced instrumentation such as HPLC-ICP-MS, laser ablation-ICP-MS and immuno-tagging-ICP-MS for the measurement of biomolecules.
Ionic liquids are excellent substitutes for traditional organic solvents in many typical organic reactions, often producing higher selectivities as well as higher yields, and enhancing the reaction rate. Tatva chintan is a globally recognized, integrated pharmaceutical company with core competencies in the development and manufacture of ionic liquids.
Presentation given by George Romanos of the National Center for Scientific Research “Demokritos” (NCSRD), Greece, on "Novel IOnic LIquid and supported ionic liquid solvents for reversible CAPture of CO2- IOLICAP" at the EC FP7 Projects: Leading the way in CCS implementation event, London, 14-15 April 2014
Polymer/Ionic Liquid Electrolytes and Their Potential in Lithium BatteriesFuentek, LLC
Polymer/Ionic Liquid Electrolytes and Their Potential in Lithium Batteries presented by Allyson Palker and Dean Tigelaar of NASA's Glenn Research Center at an energy workshop on 7/20/2010.
Hydrogen, as a clean, efficient and sustainable energy source, has been accelerated to develop and utilize. Agricultural wastes can be converted into hydrogen to realize high
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Molecular sieve is a moisture adsorbent having same-sized pores, which are less than 10 angstrom in diameter. This gives the moisture absorbent considerable surface area and thus increases its adsorption capacity. If we take a look at their composition, molecular sieves are also called zeolites.
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Intravital microscopy (IVM) is a powerful tool utilized to study cellular behavior over time and space in vivo. Much of our understanding of cell biology has been accomplished using various in vitro and ex vivo methods; however, these studies do not necessarily reflect the natural dynamics of biological processes. Unlike traditional cell culture or fixed tissue imaging, IVM allows for the ultra-fast high-resolution imaging of cellular processes over time and space and were studied in its natural environment. Real-time visualization of biological processes in the context of an intact organism helps maintain physiological relevance and provide insights into the progression of disease, response to treatments or developmental processes.
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optics at visible wavelengths.
1. Ionic Liquids & Its Applications
Ionic liquids are excellent substitutes for traditional organic solvents in many typical organic
reactions, often producing higher selectivities as well as higher yields, and enhancing the reaction
rate. Additionally, they can serve as catalyst immobilization for the easy recycling of homogeneous
catalysts without need for special functionalization, and have been successfully employed as
electrolytes in electrochemistry. "Tailor-made" solvents (optimization of the ionic liquid's
characteristics) can be achieved through a broad choice of anion and cation combinations.
Ionic liquids are attractive solvents as they are non-volatile, non-flammable, have a high thermal
stability and are relatively inexpensive to manufacture. They usually exist as liquids well below
room temperature up to a temperature as high as 200oC.
The key point about ionic liquids is that they are liquid salts, which means they consist of a salt that
exists in the liquid phase. They are not simply salts dissolved in liquid. Usually one or both of the
ions is particularly large and the cation has a low degree of symmetry, these factors result in ionic
liquids having a reduced lattice energy and hence lower melting points.Many ionic liquids have
even been developed for specific synthetic problems. For this reason, ionic liquids have been
termed "designer solvents".
Applications Of Ionic Liquids
ILs find a variety of industrial applications. A few industrial applications are described below; more
detailed information can be found in a recent review article.
Chemical industry
:
The first major industrial IL application was the BASIL (Biphasic Acid Scavenging utilizing Ionic
Liquids) process by BASF, in which 1-alkylimidazole scavenged the acid from an existing process.
This then results in the formation of an IL which can easily be removed from the reaction mixture.
This increased the space/time yield of the reaction by a factor of 80,000.
Eastman operated an IL-based plant for the synthesis of 2,5-dihydrofuran from 1996 to 2004. The
dimersol process is a traditional way to dimerize short chain alkenes into branched alkenes of
higher molecular weight. Y. Chauvin and H. Olivier-Bourbigou developed an IL-based add-on to
this process called the difasol process.
Ionikylation is an IL–based process developed by Petrochina for the alkylation of four-carbon
olefins with isobutane. Their 65,000 tonne per year plant is claimed to be the biggest industrial
application of ionic liquids to date.
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2. Pharmaceuticals:
Recognising that approximately 50% of commercial pharmaceuticals are organic salts, ionic liquid
forms of a number of pharmaceuticals have been investigated. Combining a pharmaceutically active
cation with a pharmaceutically active anion leads to a Dual Active ionic liquid in which the actions
of two drugs are combined.
Cellulose processing:
At a volume of some 700 billion tons, cellulose is the earth’s most widespread natural organic
polymer and thus highly important as a renewable resource. But even out of nature's annual 40
billion tons output, only approx. 5% is used as feedstock for further processing. More intensive
exploitation of cellulose, as a renewable feedstock, is aided by the development of suitable solvents
for mechanical and chemical processing.
ILs have been shown to be highly effective at solvating cellulose to technically useful
concentrations. This may allow for development of new processes and intensification of existing
ones substituting existing cellulose solvents with ILs. The use of molten salts in cellulose
processing originally dates back to a patent application from 1930 where mixtures of molten
1-alkylpyridinium chlorides were used to dissolve cellulose, followed by subsequent chemical and
mechanical processing. Further advances have generally led to lowering of melting points and
viscosities to a point where there are now room temperature ionic liquids available that dissolve
cellulose.
There are also examples of in-situ cellulose valorization in ionic liquids into various valuable
chemicals, e.g. glucose esters, sorbitol, and alkylgycosides. Such techniques create new
opportunities for fine chemicals production and can be, of course, useful for commercial
applications.
Making viscose-based fibres from dissolving pulp currently involves the use, and subsequent
disposal, of great volumes of various chemical auxiliaries, esp. carbon disulfide (CS
2). Major volumes of wastewater need to be disposed of. Following in the footsteps of the lyocell
process, which uses hydrated N-Methylmorpholine N-oxide, as a novel non-aqueous solvent for the
dissolution of the pulp, it has been suggested that IL can greatly simplify these processes, serving as
solvents that are potentially recyclable.
The “Institut für Textilchemie und Chemiefasern” (ITCF) in Denkendorf and BASF are jointly
investigating the properties of fibers spun from solutions of cellulose dissolved in IL in a pilot plant.
The dissolution of cellulose–based materials like tissue paper waste, generated in chemical
industries and at research laboratories, in room temperature IL 1-butyl-3-methylimidazolium
chloride, bmimCl and the recovery of valuable compounds by electrodeposition from this cellulose
matrix was studied.
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3. Fundamental Research:
ILs can be used as model systems for electrode-electrolyte interfaces in ultra-high vacuum systems.
Algae processing:
Algae are perhaps the most widespread organisms on Earth, occupying most niches on the planet.
Algae perform photosynthesis and produce high-energy molecules such as lipids and sugars, that
can be converted to useful chemicals such as biodiesel, ethanol and other biofuels. To accomplish
this, however, algae must be harvested and their constituents extracted from within the cells in an
economically viable industrial process. ILs have been shown to be effective at destroying the cell
wall and releasing cell contents using a fraction of the energy, and potentially the cost, of current
harvesting and extraction processes.
Dispersants:
ILs can act as dispersing agents in paints to enhance finish, appearance and drying properties.
ILs are used for dispersing nanomaterials at IOLITEC.
Gas handling:
ILs have several properties that make them useful in gas storage and handling applications,
including low vapor pressure, stability at high temperatures, and solvation for a wide variety of
compounds and gases. They also have weakly coordinating anions and cations which are able to
stabilize polar transition states. Many ionic liquids can be reused with minimal loss of activity.
The company Air Products uses ILs instead of pressurized cylinders as a transport medium for
reactive gases such as trifluoroborane, phosphine and arsine. The gases are dissolved in the liquids
at or below atmospheric pressure and are easily withdrawn from the containers by applying a
vacuum.
Gas manufacturer Linde exploits the low solubility of hydrogen in ILs to compress the gas up to
450 bar in filling stations by using an ionic liquid piston compressor, which has only 8 moving parts
(down from about 500 in a conventional piston pump).
IL 1-butyl-3-methylimidazolium chloride has been used for separating hydrogen from ammonia
borane.
ILs and amines can be used to capture carbon dioxide CO2 and purify natural gas.
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4. Nuclear fuel reprocessing:
IL 1-butyl-3-methylimidazolium chloride has been investigated as a non-aqueous electrolyte media
for the recovery of uranium and other metals from spent nuclear fueland other sources.
Protonated betaine bis(trifluoromethanesulfonyl) imide has been investigated as a solvent for
uranium oxides.
Ionic liquids, N-butyl-N-methylpyrrolidinium bis(trifluoromethylsulfonyl)imide and
N-methyl-N-propylpiperidinium bis(trifluoromethylsulfonyl)imide, have been investigated for the
electrodeposition of Europium and Uranium metals respectively.
Solar thermal energy
ILs have potential as a heat transfer and storage medium in solar thermal energy systems.
Concentrating solar thermal facilities such as parabolic troughs and solar power towers focus the
sun's energy onto a receiver which can generate temperatures of around 600 °C (1,112 °F). This
heat can then generate electricity in a steam or other cycle. For buffering during cloudy periods or
to enable generation overnight, energy can be stored by heating an intermediate fluid. Although
nitrate salts have been the medium of choice since the early 1980s, they freeze at 220 °C (428 °F)
and thus require heating to prevent solidification. Ionic liquids such as Cmim
4[BF
4] have more favorable liquid-phase temperature ranges (-75 to 459 °C) and could therefore be
excellent liquid thermal storage media and heat transfer fluids.
Food and bioproducts
IL 1-butyl-3-methylimidazolium chloride completely dissolves freeze dried banana pulp and with
an additional 15% DMSO, lends itself to Carbon-13 NMR analysis. In this way the entire banana
complex of starch, sucrose, glucose, and fructose can be monitored as a function of banana
ripening.
ILs can extract specific compounds from plants for pharmaceutical, nutritional and cosmetic
applications, such as the antimalarial drug artemisinin from the plantArtemisia annua.
Waste recy
cling
ILs can aid the recycling of synthetic goods, plastics and metals. They offer the specificity required
to separate similar compounds from each other, such as separatingpolymers in plastic waste
streams. This has been achieved using lower temperature extraction processes than current
approaches and could help avoid incinerating plastics or dumping them in landfill.
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5. Batteries
Researchers have identified ILs that can replace water as the electrolyte in metal-air batteries. ILs
have great appeal because they evaporate at much lower rates than water, increasing battery life by
drying slower. Further, ILs have an electrochemical window of up to six volts (versus 1.23 for
water) supporting more energy-dense metals. Energy densities from 900-1600 watt-hours per
kilogram appear possible:
A Metal-air battery draws oxygen through a porous ambient "air" electrode (-cathode) and produces
water, hydrogen peroxide, or hydroxide anions depending on the nature oxygen reduction catalyst
and electrolyte. These compounds store the electrons released by the oxidation of the anode.
Bibliography- Wikipedia.org | Tatvachintan.com---------------------------------------------------------------------------------
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