Copper(I) Chloride - Bis(Lithium Chloride) Complex

CuCl • (LiCl)2

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CUCL-LICL-02 (2N) 99% Copper(I) Chloride - Bis(Lithium Chloride) Complex Request
CUCL-LICL-03 (3N) 99.9% Copper(I) Chloride - Bis(Lithium Chloride) Complex Request
CUCL-LICL-04 (4N) 99.99% Copper(I) Chloride - Bis(Lithium Chloride) Complex Request
CUCL-LICL-05 (5N) 99.999% Copper(I) Chloride - Bis(Lithium Chloride) Complex Request


Chloride IonCopper(I) Chloride - Bis(Lithium Chloride) Complex is generally immediately available in most volumes. High purity, submicron and nanopowder forms may be considered. American Elements produces to many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information is available as is a Reference Calculator for converting relevant units of measurement.



Chemical Identifiers

Formula CuCl • (LiCl)2
Pubchem CID 9877549
EC No. N/A
IUPAC Name dilithium; copper(1+); trichloride
Beilstein Registry No. N/A
SMILES Li+].[Li+].[Cl-].[Cl-].[Cl-].[Cu+]
InchI Identifier InChI=1S/3ClH.Cu.2Li/h3*1H;;;/q;;;3*+1/p-3


Compound Formula Li2Cl3Cu
Molecular Weight 183.79
Appearance Brown-yellow to yellow-green liquid
Melting Point N/A
Boiling Point N/A
Density 1.015 g/mL
Exact Mass 181.868165
Monoisotopic Mass 181.868165

Health & Safety Info  |  MSDS / SDS

Signal Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Statements N/A
Transport Information N/A
Globally Harmonized System of Classification and Labelling (GHS) N/A

Packaging Specifications

Typical bulk packaging includes palletized plastic 5 gallon/25 kg. pails, fiber and steel drums to 1 ton super sacks in full container (FCL) or truck load (T/L) quantities. Research and sample quantities and hygroscopic, oxidizing or other air sensitive materials may be packaged under argon or vacuum. Shipping documentation includes a Certificate of Analysis and Material Safety Data Sheet (MSDS). Solutions are packaged in polypropylene, plastic or glass jars up to palletized 440 gallon liquid totes.

Related Products

CuSee more Copper products. Copper (atomic symbol: Cu, atomic number: 29) is a Block D, Group 11, Period 4 element with an atomic weight of 63.546. The number of electrons in each of copper's shells is 2, 8, 18, 1 and its electron configuration is [Ar] 3d10 4s1. The copper atom has a radius of 128 pm and a Van der Waals radius of 186 pm. Copper was first discovered by Early Man prior to 9000 BC. In its elemental form, copper has a red-orange metallic luster appearance. Of all pure metals, only silver has a higher electrical conductivity.The origin of the word copper comes from the Latin word 'cuprium' which translates as "metal of Cyprus." Cyprus, a Mediterranean island, was known as an ancient source of mined copper.

LiSee more Lithium products. Lithium (atomic symbol: Li, atomic number: 3) is a Block S, Group 1, Period 2 element with an atomic weight of 6.94. The number of electrons in each of Lithium's shells is [2, 1] and its electron configuration is [He] 2s1. The lithium atom has a radius of 152 pm and a Van der Waals radius of 181 pm. Lithium was discovered by Johann Arvedson in 1817 and first isolated by William Thomas Brande in 1821. The origin of the name Lithium comes from the Greek wordlithose which means "stone." Lithium is a member of the alkali group of metals. It has the highest specific heat and electrochemical potential of any element on the period table and the lowest density of any elements that are solid at room temperature. Compared to other metals, it has one of the lowest boiling points. In its elemental form, lithium is soft enough to cut with a knife its silvery white appearance quickly darkens when exposed to air. Because of its high reactivity, elemental lithium does not occur in nature. Lithium is the key component of lithium-ion battery technology, which is becoming increasingly more prevalent in electronics.


Recent Research & Development for Lithium

  • Polyanthraquinone as a Reliable Organic Electrode for Stable and Fast Lithium Storage. Song Z, Qian Y, Gordin ML, Tang D, Xu T, Otani M, Zhan H, Zhou H, Wang D. Angew Chem Int Ed Engl. 10-79-2015
  • Large-Area Polyimide/SWCNT Nanocable Cathode for Flexible Lithium-Ion Batteries. Wu H, Meng Q, Yang Q, Zhang M, Lu K, Wei Z. Adv Mater. 10/15/2015
  • Structural and Electrical Properties of Lithium-Ion Rechargeable Battery Using the LiFePO4/Carbon Cathode Material. Kim YS, Jeoung TH, Nam SP, Lee SH, Kim JC, Lee SG. J Nanosci Nanotechnol. 10/1/2015
  • Prognostics of Lithium-Ion Batteries Based on Wavelet Denoising and DE-RVM. Zhang C, He Y, Yuan L, Xiang S, Wang J. Comput Intell Neurosci. 9/30/2015
  • Synthesis and Electrochemical Properties of LiFePO4/C for Lithium Ion Batteries. Gao H, Wang J, Yin S, Zheng H, Wang S, Feng C, Wang S. J Nanosci Nanotechnol. 9/23/2015
  • Magnetic Field-Controlled Lithium Polysulfide Semi-Liquid Battery with Ferrofluidic Properties. Li W, Liang Z, Lu Z, Tao X, Liu K, Yao H, Cui Y. Nano Lett. 9/23/2015
  • Concentration Effects on the Entropy of Electrochemical Lithium Deposition - Implications for Li+ Solvation. Schmid MJ, Xu J, Lindner J, Novák P, Schuster R. J Phys Chem B. 9/22/2015
  • Graphitic Carbon Conformal Coating of Mesoporous Ti02 Hollow Spheres for High-Performance Lithium Ion Battery Anodes. Liu H, Li W, Shen D, Zhao D, Wang G. J Am Chem Soc. 9/19/2015
  • Surface Coating Constraint Induced Self-Discharging of Silicon Nanoparticles as Anodes for Lithium Ion Batteries. Luo L, Zhao P, Yang H, Liu B, Zhang JG, Cui Y, Yu G, Zhang S, Wang CM. Nano Lett. 9/3/2015
  • Ionomer-Liquid Electrolyte Hybrid Ionic Conductor for High Cycling Stability of Lithium Metal Electrodes. Song J, Lee H, Choo MJ, Park JK, Kim HT. Sci Rep. 4/24/2015

Recent Research & Development for Copper

  • Copper-transporting ATPases: The evolutionarily conserved machineries for balancing copper in living systems. Migocka M. IUBMB Life. 10/5/2015
  • Cysteine Enhances Bioavailability of Copper to Marine Phytoplankton. Walsh MJ, Goodnow SD, Vezeau GE, Richter LV, Ahner BA. Environ Sci Technol. 9/28/2015
  • Copper-catalyzed electrophilic amination of sodium sulfinates at room temperature. Zhu H, Shen Y, Deng Q, Tu T. Chem Commun (Camb). 9/25/2015
  • N-heterocyclic carbene copper(i) catalysed N-methylation of amines using CO2. Santoro O, Lazreg F, Minenkov Y, Cavallo L, Cazin CS. Dalton Trans. 9/25/2015
  • Transfer of Copper from an Amyloid to a Natural Copper-Carrier Peptide with a Specific Mediating Ligand. Nguyen M, Bijani C, Martins N, Meunier B, Robert A. Chemistry. 9/25/2015
  • Decarboxylative Alkylcarboxylation of ?,?-Unsaturated Acids Enabled by Copper-Catalyzed Oxidative Coupling. Gao B, Xie Y, Shen Z, Yang L, Huang H. Org Lett. 9/23/2015
  • Potent antibacterial activity of copper embedded into silicone and polyurethane. Sehmi S, Noimark S, Weiner J, Allan E, MacRobert AJ, Parkin IP. ACS Appl Mater Interfaces. 9/21/2015
  • Synthesis, Structure and Spectroscopy Study of a 1D Copper Coordination Polymer Based on a Carboxybenzyl Viologen Ligand and SCN-Anion. Qiu LX, Wan F, Zhu BB, Sun YQ, You Y, Chen YP. Guang Pu Xue Yu Guang Pu Fen Xi. 9/16/2015
  • Copper complex in polyvinyl chloride as nitric oxide generating catalyst for the control of nitrifying bacterial biofilms. Wonoputri V, Gunawan C, Liu S, Barraud N, Yee LH, Lim M, Amal R. ACS Appl Mater Interfaces. 9/10/2015
  • Nitrogen-doped graphene network supported copper nanoparticles encapsulated with graphene shells for surface-enhanced Raman scattering. Zhang X, Shi C, Liu E, Li J, Zhao N, He C. Nanoscale. 9/3/2015

Recent Research & Development for Chlorides

  • Reduction of cytotoxicity of benzalkonium chloride and octenidine by Brilliant Blue G. Bartok M, Tandon R, Alfaro-Espinoza G, Ullrich MS, Gabel D. EXCLI J. 10/14/2015
  • Crystal structure of 4,6-di-amino-2,2-dimethyl-3-[3-(2,4,5-tri-chloro-phen-oxy)prop-oxy]-2,3-di-hydro-1,3,5-triazin-1-ium chloride methanol monosolvate. Khongsuk P, Prabpai S, Kongsaeree P. Acta Crystallogr E Crystallogr Commun. 10/5/2015
  • Oxidative Dimerization of Silylallenes via Activation of the Allenic C(sp2)-H Bond Catalyzed by Copper(I) Chloride and N-Hydroxyphthalimide. Sabbasani VR, Lee D. Org Lett. 9/28/2015
  • The antimicrobial activity of free and immobilized poly (diallyldimethylammonium) chloride in nanoparticles of poly (methylmethacrylate). Sanches LM, Petri DF, de Melo Carrasco LD, Carmona-Ribeiro AM. J Nanobiotechnology. 9/24/2015
  • Genomic and chromosomal damage in the marine mussel Mytilus galloprovincialis: Effects of the combined exposure to titanium dioxide nanoparticles and cadmium chloride. Rocco L, Santonastaso M, Nigro M, Mottola F, Costagliola D, Bernardeschi M, Guidi P, Lucchesi P, Scarcelli V, Corsi I, Stingo V, Frenzilli G. Mar Environ Res. 9/23/2015
  • Synthesis, Fluorescence Spectra, Redox Property and the DNA Binding Studies of 7-phenylacenaphtho[1,2-b]quinoxalin-7-ium chloride: Evidences of the Formation of Neutral Radical Analogue. Kundu S, Banerjee A, De A, Khan AY, Kumar GS, Bhadra R, Ghosh P. J Fluoresc. 9/21/2015
  • Effects of sodium chloride exposure on ion regulation in larvae (glochidia) of the freshwater mussel Lampsilis fasciola. Nogueira LS, Bianchini A, Wood CM, Loro VL, Higgins S, Gillis PL. Ecotoxicol Environ Saf. 9/15/2015
  • Fucosterol protects cobalt chloride induced inflammation by the inhibition of hypoxia-inducible factor through PI3K/Akt pathway. Sun Z, Mohamed MA, Park SY, Yi TH. Int Immunopharmacol. 9/7/2015
  • Nickel chloride (NiCl2)-caused inflammatory responses via activation of NF-?B pathway and reduction of anti-inflammatory mediator expression in the kidney. Guo H, Deng H, Cui H, Peng X, Fang J, Zuo Z, Deng J, Wang X, Wu B, Chen K. Oncotarget. 9/2/2015
  • Expanding Spectrum of Sodium Potassium Chloride Co-transporters in the Pathophysiology of Diseases. Jaggi AS, Kaur A, Bali A, Singh N. Curr Neuropharmacol. 4/21/2015

Free Test Sample Program

We recognize many of our customers are purchasing small quantities directly online as trial samples in anticipation of placing a larger future order or multiple orders as a raw material for production. Since our primary business is the production of industrial quantities and/or highly consistent batches which can be used for commercial production and purchased repeatedly in smaller quantity, American Elements offers trial samples at no charge on the following basis. Within 6 months of purchasing materials directly online from us, you have the option to refer back to that order and advise that it is the intention of your company, institution or lab to either purchase a larger quantity, purchase the material in regular intervals or purchase more on some other basis.

We will then evaluate your future needs and assuming the quantity or number of future purchases qualify, we will fully credit your purchase price with the next order. Because of the many variables in the quantity and number of orders you may place, it is impossible to evaluate whether your future order(s) will qualify for this program prior to your placing your next order. Please know American Elements strongly desires to make this free sample program available to you and will make every effort to do so once your next order is placed.