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Sodium
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Sodium
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Sodium-Ion Batteries : Materials, Characterization, and Technology, 2 Volumes
Presents uparalleled coverage of Na-ion battery technology, including the most recent research and emerging applications Na-ion battery technologies have emerged as cost-effective, environmentally friendly alternatives to Li-ion batteries, particularly for large-scale storage applications where battery size is less of a concern than in portable electronics or electric vehicles.Scientists and engineers involved in developing commercially viable Na-ion batteries need to understand the state-of-the-art in constituent materials, electrodes, and electrolytes to meet both performance metrics and economic requirements.Sodium-Ion Batteries: Materials, Characterization, and Technology provides in-depth coverage of the material constituents, characterization, applications, upscaling, and commercialization of Na-ion batteries.Contributions by international experts discuss the development and performance of cathode and anode materials and their characterization - using methods such as NMR spectroscopy, magnetic resonance imaging (MRI), and computational studies - as well as ceramics, ionic liquids, and other solid and liquid electrolytes.Discusses the development of battery technology based on the abundant alkali ion sodiumFeatures a thorough introduction to Na-ion batteries and their comparison with Li-ion batteriesReviews recent research on the structure-electrochemical performance relationship and the development of new solid electrolytesIncludes a timely overview of commercial perspectives, cost analysis, and safety issues of Na-ion batteriesCovers emerging technologies including Na-ion capacitors, aqueous sodium batteries, and Na-S batteriesThe handbook Sodium-Ion Batteries: Materials, Characterization, and Technology is an indispensable reference for researchers and development engineers, materials scientists, electrochemists, and engineering scientists in both academia and industry.
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Sodium Cromoglicate 2% 10ml Eye Drops
Sodium Cromoglicate Eye Drops What are Sodium Cromoglicate Eye Drops? Sodium Cromoglicate Eye Drops bring fast relief to the symptoms of itchy allergy eyes. If you are suffering from irritation of your eyes caused by hay fever or other allergens, Sodium Cromoglicate Eye Drops can help soothe and relieve you of the symptoms. Itchy, watery irritated eyes can be soothed so you can feel comfortable and get on with your day without feeling drowsy. What is Sodium Cromoglicate and how does it work? Sodium cromoglicate is an anti-allergy medication that keeps histamine from being released into your eyes where it can cause an allergic reaction. This both treats and prevents allergy symptoms that affect your eyes, such as redness, itching, irritation, and watery eyes. Warnings and Precautions Not suitable for children under 6 years of age. Speak to your GP or pharmacist before use if you're pregnant or breastfeeding. Keep out of reach of children Do not exceed the stated dose. Do not use it while wearing soft contact lenses. Ingredients Sodium cromoglicate, Benzalkonium chloride, Disodium edetate, and Water for injections.
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How does the particle transformation occur in sodium chloride?
In sodium chloride, the particle transformation occurs through ionic bonding. Sodium (Na) atoms lose an electron to become positively charged sodium ions (Na+), while chloride (Cl) atoms gain an electron to become negatively charged chloride ions (Cl-). These oppositely charged ions are then attracted to each other, forming a lattice structure in which the sodium and chloride ions are arranged in a repeating pattern. This results in the formation of sodium chloride crystals.
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How much sodium is in sodium bicarbonate?
Sodium bicarbonate, also known as baking soda, is composed of about 27.4% sodium by weight. This means that for every 100 grams of sodium bicarbonate, there is approximately 27.4 grams of sodium. It is important to note that while sodium bicarbonate contains sodium, it is not as high in sodium content as other sodium-based compounds.
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How do sodium chloride and sodium chlorate differ?
Sodium chloride and sodium chlorate differ in their chemical composition and uses. Sodium chloride, commonly known as table salt, is a simple ionic compound composed of sodium and chloride ions. It is used as a seasoning and preservative in food, as well as in various industrial processes. On the other hand, sodium chlorate is a chemical compound containing sodium, chlorine, and oxygen. It is used as an herbicide, a bleaching agent, and in the production of chlorine dioxide. Additionally, sodium chlorate is more toxic than sodium chloride and should be handled with care.
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How can sodium oxide and sodium hydroxide be detected?
Sodium oxide can be detected by performing a flame test, where the compound is heated in a flame and the characteristic yellow color of sodium is observed. Sodium hydroxide can be detected by adding a few drops of phenolphthalein indicator to a solution suspected to contain the compound; a pink color change indicates the presence of sodium hydroxide. Additionally, both compounds can be identified through chemical reactions with specific reagents that produce characteristic precipitates or color changes.
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Sodium-Ion Batteries : Technologies and Applications
Sodium-Ion Batteries Practice-oriented guide systematically summarizing and condensing the development, directions, potential, and core issues of sodium-ion batteries Sodium-Ion Batteries begins with an introduction to sodium-ion batteries (SIBs), including their background, development, definition, mechanism, and classification/configuration, moving on to summarize cathode and anode materials, discuss electrolyte, separator, and other key technologies and devices, and review practical applications and conclusions/prospects of sodium-ion batteries.The text promotes the idea that SIBs can be a good complement, or even a strong competitor, to more mainstream energy technologies in specific application scenarios, including but not limited to large-scale grid energy storage, distributed energy storage, and low-speed electric vehicles, by virtue of considerable advantages in cost-effectiveness compared with lithium-ion, lead-acid, and vanadium redox flow batteries.This book delves into what we have done, where we are, and how we should proceed in regards to the advancement of SIBs, in order to make the technology more applicable in real-world situations.Specific sample topics covered in Sodium-Ion Batteries include: Electrochemical test techniques, including cyclic voltammetry, galvanostatic charge-discharge, and electrochemical impedance spectroscopyAdvanced characterization techniques and theoretical calculation, covering imaging and microscopy, and the synchrotron radiation x-ray diffraction techniqueDesigning and manufacturing SIBs, covering types of cells (cylindrical, soft-pack, and psitmatic), and design requirements for cellsPerformance tests and failure analysis, covering electrochemical and safety performances test, failure phenomenon, failure analysis method, and cost estimationSolid-state nuclear magnetic resonance spectroscopy, covering principles of ssNMR and shift ranges for battery materials A complete review of an exciting energy storage technology that is undergoing a crucial development stage, Sodium-Ion Batteries is an essential resource for materials scientists, inorganic and physical chemists, and all other academics, researchers, and professionals who wish to stay on the cutting edge of energy technology.
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Pioneering Progress : American Science, Technology, and Innovation Policy
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Fashion and Environmental Sustainability : Entrepreneurship, Innovation and Technology
The wide range of topics that the book covers are organised into sections reflecting a cradle to grave view of how entrepreneurial, innovative, and tech-savvy approaches can advance environmental sustainability in the fashion sector.These sections include: sustainable materials; innovation in design, range planning and product development; sustainable innovations in fashion supply chains; sustainable innovations in fashion retail and marketing; sustainable alternatives for end-of-life and circular economy initiatives; and more sustainable alternative fashion business models.
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Sodium-Ion Capacitors : Mechanisms, Materials, and Technologies
Sodium-Ion Capacitors Enables readers to quickly understand core issues and field development of sodium-ion capacitors Sodium-Ion Capacitors summarizes and outlines the dynamics and development of sodium-ion capacitors, covering key aspects of the technology including background, classification and configuration, key technologies, and more, allowing readers to gain an understanding of sodium-ion capacitors from the perspective of both industrial technology and electrochemistry.Sodium-Ion Capacitors includes information on: EDLC-type mechanism of SCs and battery-type mechanism of SIBs, definition and types of pseudocapacitance, and energy storage mechanism of pseudocapacitorsCathode materials for sodium-ion capacitors, covering EDLC cathode materials, carbon nanotubes, reduced graphene oxide, and hollow carbon microspheresFlexible battery-type anode and capacitive cathode SICs cell configurations, including flexible electrodes based on carbon nanofiber, graphene substrates, carbon cloth, MXenes, and metal foilPre-sodiation technologies, covering operation with Li metal, usage of Li-based alternatives, and the sacrificial additives method Summarizing the development, directions, potential, and core issues of sodium-ion capacitors, Sodium-Ion Capacitors is an essential resource on the subject for materials scientists, solid-state chemists and electrochemists, and semiconductor physicists in both industry and academia.
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How can one convert sodium hydroxide into sodium hydroxide?
Sodium hydroxide cannot be converted into itself as it is a pure compound. However, if you meant to ask how to produce sodium hydroxide from another compound, one common method is the electrolysis of a sodium chloride solution (brine). This process involves passing an electric current through the solution, causing the sodium ions to migrate to the negative electrode (cathode) and react with water to form sodium hydroxide.
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What is the difference between sodium and sodium fluoride?
Sodium is a chemical element with the symbol Na and atomic number 11, while sodium fluoride is a chemical compound composed of sodium and fluoride ions with the formula NaF. The main difference between the two is that sodium is a pure element, while sodium fluoride is a compound formed by the combination of sodium and fluoride ions. Sodium fluoride is commonly used in toothpaste and water fluoridation to prevent tooth decay, while sodium is a highly reactive metal that is commonly found in salts and other compounds.
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Is sodium harmful?
Sodium is an essential mineral that our bodies need to function properly. However, consuming too much sodium can lead to health problems such as high blood pressure, heart disease, and stroke. It is important to consume sodium in moderation and be mindful of the amount of sodium in processed and packaged foods. It is recommended to limit sodium intake to no more than 2,300 milligrams per day for most adults.
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Is sodium dangerous?
Sodium can be dangerous if consumed in excessive amounts. High sodium intake has been linked to high blood pressure, heart disease, and stroke. It is important to monitor sodium intake and consume it in moderation. However, sodium is also an essential mineral that plays a crucial role in maintaining fluid balance, nerve function, and muscle contractions in the body. It is important to strike a balance and consume sodium in appropriate amounts to support overall health.
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