Cas no 85017-82-9 (Lithium bromide hydrate)

Lithium bromide hydrate (LiBr·xH?O) is a hygroscopic crystalline compound widely used in industrial applications, particularly as a desiccant in absorption refrigeration systems. Its high solubility in water and strong affinity for moisture make it effective for humidity control and heat transfer processes. The compound exhibits excellent thermal stability and efficient energy absorption, which are critical for air conditioning and dehumidification systems. Lithium bromide hydrate is also employed in organic synthesis and as a catalyst in certain chemical reactions. Its non-toxic nature and low volatility enhance safety in handling and storage. The product is typically supplied as a white crystalline powder or solution, with consistent purity for reliable performance.
Lithium bromide hydrate structure
Lithium bromide hydrate structure
Product Name:Lithium bromide hydrate
CAS No:85017-82-9
MF:BrH2LiO
MW:104.860279560089
MDL:MFCD00149763
CID:60806
PubChem ID:24868650
Update Time:2025-05-20

Lithium bromide hydrate Chemical and Physical Properties

Names and Identifiers

    • Lithium bromide
    • LITHIUM BROMIDE HYDRATE
    • LITHIUM BROMIDE MONOHYDRATE
    • HYDROUS
    • puratronic
    • LITHIUM BROMIDE, HYDROUS
    • lithium bromide hydrate, puratronic
    • LITHIUM BROMIDE HYDRATE, 99.999%
    • Lithium bromide hydrate, Puratronic(R), 99.995% (metals basis)
    • water-lithium bromide
    • Br.Li.H2O
    • Lithium bromide xhydrate
    • lithium(1+) hydrate bromide
    • KSC491S9T
    • IPLONMMJNGTUAI-UHFFFAOYSA-M
    • Lithium bromide--water (1/1/1)
    • 5595AF
    • Lithiumbromide(libr),monohydrate(9ci)
    • Lithium bromide hydrate, 99.999% trace metals basis
    • Lithium bromide hydrate, SAJ first grade, >=98.0%
    • Lithium bromide (LiBr), hydrate
    • Lithium bromide hydrate, Puratronic?
    • 23303-71-1
    • LITHIUM BROMIDE HYDRATE, 99
    • 13453-70-8
    • AKOS030228259
    • HY-W250314
    • 85017-82-9
    • lithium;bromide;hydrate
    • Lithium bromide (LiBr), monohydrate
    • MFCD00149763
    • CS-0310557
    • DTXSID40635739
    • AS-58031
    • Lithium bromide hydrate
    • MDL: MFCD00149763
    • Inchi: 1S/BrH.Li.H2O/h1H;;1H2/q;+1;/p-1
    • InChI Key: IPLONMMJNGTUAI-UHFFFAOYSA-M
    • SMILES: [Li]Br.O

Computed Properties

  • Exact Mass: 85.93430
  • Monoisotopic Mass: 103.94491g/mol
  • Isotope Atom Count: 0
  • Hydrogen Bond Donor Count: 1
  • Hydrogen Bond Acceptor Count: 2
  • Heavy Atom Count: 3
  • Rotatable Bond Count: 0
  • Complexity: 2
  • Covalently-Bonded Unit Count: 3
  • Defined Atom Stereocenter Count: 0
  • Undefined Atom Stereocenter Count : 0
  • Defined Bond Stereocenter Count: 0
  • Undefined Bond Stereocenter Count: 0
  • Topological Polar Surface Area: 1

Experimental Properties

  • Color/Form: Not determined
  • Density: 3.464
  • Melting Point: 162-167?°C (lit.)
  • Boiling Point: Vapour density:
  • Flash Point: No date available
  • Water Partition Coefficient: Soluble in water, alcohol and glycol.
  • Stability/Shelf Life: Stable, but may be moisture sensitive. Incompatible with strong acids, strong oxidizing agents.
  • PSA: 0.00000
  • LogP: -2.99600
  • Solubility: Not determined
  • Merck: 14,5526
  • Sensitiveness: Hygroscopic
  • Vapor Pressure: No date available

Lithium bromide hydrate Security Information

  • Symbol: GHS07
  • Signal Word:Warning
  • Hazard Statement: H302-H315-H319-H335
  • Warning Statement: P261-P305+P351+P338
  • Hazardous Material transportation number:NONH for all modes of transport
  • WGK Germany:3
  • Hazard Category Code: 22-36/37/38
  • Safety Instruction: S26-S36
  • Hazardous Material Identification: Xi
  • Risk Phrases:R22; R36/37/38
  • TSCA:Yes
  • Storage Condition:storage at -4℃ (1-2weeks), longer storage period at -20℃ (1-2years)

Lithium bromide hydrate Customs Data

  • HS CODE:2827590000
  • Customs Data:

    China Customs Code:

    2827590000

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Additional information on Lithium bromide hydrate

Lithium bromide hydrate (CAS No. 85017-82-9): A Comprehensive Overview

Lithium bromide hydrate, with the chemical formula LiBr·xH?O, is a versatile compound widely utilized in various industrial and scientific applications. Its unique properties, such as high solubility in water and its ability to form hydrates, make it a valuable material in fields ranging from refrigeration to pharmaceuticals. This article provides an in-depth exploration of Lithium bromide hydrate, focusing on its chemical properties, industrial applications, and the latest research findings that highlight its significance in modern science and technology.

The molecular structure of Lithium bromide hydrate consists of lithium ions (Li?) and bromide ions (Br?) associated with water molecules. The presence of water molecules in its crystalline structure contributes to its hygroscopic nature, meaning it readily absorbs moisture from the air. This property is particularly useful in applications where moisture control is essential. The compound exists in different hydrated forms, with the most common being the monohydrate (LiBr·H?O) and the dihydrate (LiBr·2H?O). The hydration state can influence its thermal stability and reactivity, making it a subject of interest for researchers exploring its potential in chemical synthesis.

Lithium bromide hydrate is primarily known for its role as a desiccant and a component in absorption chillers. In absorption refrigeration systems, it works in conjunction with water as the absorbent and generator fluids. The compound's high affinity for water allows it to efficiently absorb refrigerant gases, such as ammonia or HFCs, facilitating the cooling process. Recent advancements in green technology have spurred research into using Lithium bromide hydrate as a more environmentally friendly alternative to traditional chlorofluorocarbons (CFCs) and hydrochlorofluorocarbons (HCFCs) used in refrigeration.

The pharmaceutical industry has also explored the potential of Lithium bromide hydrate due to its lithium content. Lithium compounds have long been recognized for their therapeutic effects, particularly in treating mood disorders such as bipolar disorder. While lithium carbonate is more commonly prescribed, researchers are investigating the efficacy of lithium salts like Lithium bromide hydrate as alternatives or adjuncts to existing treatments. Studies suggest that lithium bromide may offer similar benefits with potentially different metabolic profiles, making it an area of active clinical research. The compound's ability to cross the blood-brain barrier efficiently could be a key factor in its potential pharmacological applications.

In addition to its industrial and medical uses, Lithium bromide hydrate finds applications in chemical synthesis and catalysis. Its ability to act as a Lewis acid or a Br?nsted base makes it a valuable reagent in organic transformations. For instance, it has been used in the synthesis of complex organic molecules, where it facilitates reactions such as alkylation and acylation. Researchers are also exploring its role in asymmetric catalysis, where chiral derivatives of lithium bromide could induce enantioselective reactions, crucial for producing optically active pharmaceuticals.

The environmental impact of using Lithium bromide hydrate is another area of concern that has driven innovation in its application. While lithium compounds are generally considered eco-friendly compared to some other industrial chemicals, their production and disposal require careful management to minimize environmental footprint. Recent studies have focused on developing more sustainable methods for synthesizing Lithium bromide hydrate, including using renewable energy sources and optimizing recovery processes from brine deposits. These efforts aim to align industrial practices with global sustainability goals while maintaining the efficiency and reliability of this compound.

The future prospects of Lithium bromide hydrate are promising, with ongoing research uncovering new applications and improving existing ones. Advances in nanotechnology have enabled the development of nanostructured forms of lithium bromide that exhibit enhanced properties for specific applications. For example, nano-sized particles of Lithium bromide hydrate could improve heat transfer efficiency in refrigeration systems or enhance catalytic activity in chemical reactions. Additionally, computational chemistry techniques are being employed to design novel derivatives with tailored properties for specialized uses.

In conclusion, Lithium bromide hydrate (CAS No. 85017-82-9) is a multifaceted compound with significant roles across multiple industries. Its unique properties make it indispensable in refrigeration technology, pharmaceuticals, chemical synthesis, and environmental applications. As research continues to uncover new possibilities for this compound, its importance is likely to grow further. By addressing current challenges through innovative approaches and sustainable practices, the full potential of Lithium bromide hydrate can be realized, contributing to technological advancements and improved quality of life.

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