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Hydrogen peroxide - urea

January 01, 1970

Hydrogen peroxide - urea (also called Hyperol, artizone, urea hydrogen peroxide, and UHP) is a white crystalline solid chemical compound composed of equal amounts of hydrogen peroxide and urea. It contains solid and water-free hydrogen peroxide, which offers a higher stability and better controllability than liquid hydrogen peroxide when used as an oxidizing agent. Often called carbamide peroxide in dentistry, it is used as a source of hydrogen peroxide when dissolved in water for bleaching, disinfection and oxidation.

Hydrogen peroxide - urea
Names
IUPAC name
Hydrogen peroxide — urea (1/1)
Systematic IUPAC name
Peroxol — carbonyl diamide (1/1)
Other names
Urea peroxide, percarbamide, UHP
Identifiers
  • 124-43-6 Y
3D model (JSmol)
  • Interactive image
ChEBI
  • CHEBI:75178
ChemSpider
  • 29034 Y
ECHA InfoCard 100.004.275
  • 31294
UNII
  • 31PZ2VAU81 Y
  • DTXSID9024726
  • InChI=1S/CH4N2O.H2O2/c2-1(3)4;1-2/h(H4,2,3,4);1-2H Y
    Key: AQLJVWUFPCUVLO-UHFFFAOYSA-N Y
  • O=C(N)N.OO
Properties
CH6N2O3
Molar mass 94.070 g·mol−1
Appearance White solid
Density 1.50 g/cm3
Melting point 75 to 91.5 °C (167.0 to 196.7 °F; 348.1 to 364.6 K) (decomposes)
Pharmacology
D02AE01 (WHO)
Hazards
GHS labelling:[1]
Danger
H272, H315, H318
P210, P220, P264, P280, P302+P352, P305+P351+P338
Flash point 60 °C (140 °F; 333 K)
Safety data sheet (SDS) External MSDS
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
Y verify (what is YN ?)

Production edit

For the preparation of the complex, urea is dissolved in 30% hydrogen peroxide (molar ratio 2:3) at temperatures below 60 °C. upon cooling this solution, hydrogen peroxide - urea precipitates in the form of small platelets.[2]

Akin to water of crystallization, hydrogen peroxide cocrystallizes with urea with the stoichiometry of 1:1. The compound is simply produced (on a scale of several hundred tonnes a year) by the dissolution of urea in excess concentrated hydrogen peroxide solution, followed by crystallization.[3] The laboratory synthesis is analogous.[4]

Structure and properties edit

The solid state structure of this adduct has been determined by neutron diffraction.[5]

Hydrogen peroxide - urea is a readily water-soluble, odorless, crystalline solid, which is available as white powder or colorless needles or platelets.[2] Upon dissolving in various solvents, the 1:1 complex dissociates back to urea and hydrogen peroxide. So just like hydrogen peroxide, the (erroneously) so-called adduct is an oxidizer but the release at room temperature in the presence of catalysts proceeds in a controlled manner. Thus the compound is suitable as a safe substitute for the unstable aqueous solution of hydrogen peroxide. Because of the tendency for thermal decomposition, which accelerates at temperatures above 82 °C,[6] it should not be heated above 60 °C, particularly in pure form.

The solubility of commercial samples varies from 0.05 g/mL[7] to more than 0.6 g/mL.[8]

Applications edit

Disinfectant and bleaching agent edit

Hydrogen peroxide - urea is mainly used as a disinfecting and bleaching agent in cosmetics and pharmaceuticals.[3] As a drug, this compound is used in some preparations for the whitening of teeth.[3][9][10] It is also used to relieve minor inflammation of gums, oral mucosal surfaces and lips including canker sores and dental irritation,[11] and to emulsify and disperse earwax.[12]

Carbamide peroxide is also suitable as a disinfectant, e.g. for germ reduction on contact lens surfaces or as an antiseptic for mouthwashes, ear drops or for superficial wounds and ulcers.

Reagent in organic synthesis edit

In the laboratory, it is used as a more easily handled replacement for hydrogen peroxide.[4][13][14] It has proven to be a stable, easy-to-handle and effective oxidizing agent which is readily controllable by a suitable choice of the reaction conditions. It delivers oxidation products in an environmentally friendly manner and often in high yields especially in the presence of organic catalysts such as cis-butenedioic anhydride[15] or inorganic catalysts such as sodium tungstate.[16]

 
Reaktionen mit Carbamidperoxid

[verification needed]

It converts thiols selectively to disulfides,[15] secondary alcohols to ketones,[16] sulfides to sulfoxides and sulfones,[17] nitriles to amides,[17][18] and N-heterocycles to amine oxides.[17][19]

 
Reaktionen von Methoxyphenolen mit UHP

Hydroxybenzaldehydes are converted to dihydroxybenzenes (Dakin reaction)[17][20] and give, under suitable conditions, the corresponding benzoic acids.[20]

 
Baeyer-Villiger-Oxidation mit UHP

It oxidizes ketones to esters, in particular cyclic ketones, such as substituted cyclohexanones[21] or cyclobutanones[22] to give lactones (Baeyer–Villiger oxidation).

The epoxidation of various alkenes in the presence of benzonitrile yields oxiranes in yields of 79 to 96%.[23]

 
Epoxidierung von Cyclohexen mit UHP

The oxygen atom transferred to the alkene originates from the peroxoimide acid formed intermediately from benzonitrile. The resulting imidic acid tautomerizes to the benzamide.

Safety edit

The compound acts as a strong oxidizing agent and can cause skin irritation and severe eye damage.[24] Urea - hydrogen peroxide was also found to be an insensitive high explosive, capable of detonation by strong impulse under heavy confinement.[25][26]

See also edit

References edit

  1. ^ GHS: Sigma-Aldrich 289132
  2. ^ a b C.-S. Lu; E.W. Hughes; P.A. Giguère (1941), "The crystal structure of the urea-hydrogen peroxide addition compound CO(NH2)2 H2O2", J. Am. Chem. Soc., vol. 63, no. 6, pp. 1507–1513, doi:10.1021/ja01851a007
  3. ^ a b c Harald Jakob; Stefan Leininger; Thomas Lehmann; Sylvia Jacobi; Sven Gutewort. "Peroxo Compounds, Inorganic". Ullmann's Encyclopedia of Industrial Chemistry. Weinheim: Wiley-VCH. doi:10.1002/14356007.a19_177.pub2. ISBN 978-3527306732.
  4. ^ a b Yu, Lei; Meng, Bo; Huang, Xian (2008). "Urea-Hydrogen Peroxide Complex: A Selective Oxidant in the Synthesis of 2-Phenylselenyl-1,3-butadienes". Synthetic Communications. 38 (18): 3142. doi:10.1080/00397910802109224. S2CID 98323467.
  5. ^ Fritchie, C. J. Jr.; McMullan, R. K. (1981). "Neutron Diffraction Study of the 1:1 Urea:Hydrogen Peroxide complex at 81 K". Acta Crystallographica Section B. 37 (5): 1086. doi:10.1107/S0567740881005116.
  6. ^ H. Heaney; F. Cardona; A. Goti; A.L. Frederick (2013). "Hydrogen Peroxide-Urea". Encyclopedia of Reagents for Organic Synthesis. doi:10.1002/047084289X.rh047.pub3. ISBN 978-0471936237. {{cite book}}: |periodical= ignored (help)
  7. ^ Sigma-Aldrich specification sheet
  8. ^ Chemicalland data sheet
  9. ^ Mokhlis, G. R.; Matis, B. A.; Cochran, M. A.; Eckert, G. J. (2000). "A Clinical Evaluation of Carbamide Peroxide and Hydrogen Peroxide Whitening Agents during Daytime Use". Journal of the American Dental Association. 131 (9): 1269–77. doi:10.14219/jada.archive.2000.0380. PMID 10986827. Archived from the original on 2013-02-23.
  10. ^ Toothwhitening 2008-03-17 at the Wayback Machine from the UMD of New Jersey website
  11. ^ Center for Integrative Medicine: Carbamide Peroxide from the University of Maryland Medical Center website October 18, 2007, at the Wayback Machine
  12. ^ "Ear Drops GENERIC NAME(S): CARBAMIDE PEROXIDE". WebMD. Retrieved July 3, 2021.
  13. ^ Varma, Rajender S.; Naicker, Kannan P. (1999). "The Urea−Hydrogen Peroxide Complex: Solid-State Oxidative Protocols for Hydroxylated Aldehydes and Ketones (Dakin Reaction), Nitriles, Sulfides, and Nitrogen Heterocycles". Organic Letters. 1 (2): 189. doi:10.1021/ol990522n.
  14. ^ Harry Heaney, Francesca Cardona, Andrea Goti, "Hydrogen Peroxide–Urea" Encyclopedia of Reagents for Organic Synthesis 2008. doi:10.1002/047084289X.rh047.pub2
  15. ^ a b B. Karami; M. Montazerozohori; M. H. Habibi (2005), "Urea-Hydrogen Peroxide (UHP) oxidation of thiols to the corresponding disulfides promoted by maleic anhydride as mediator" (PDF), Molecules (in German), vol. 10, no. 10, pp. 1358–1363, doi:10.3390/10101385, PMC 6147623, PMID 18007530
  16. ^ a b M. Lukasiewicz; D. Bogdal; J. Pielichowski. "Microwave-assisted oxidation of alcohols using urea hydrogen peroxide". 8th International Electronic Conference on Synthetic Organic Chemistry. ECSOC-8. Retrieved 2016-05-10.
  17. ^ a b c d R.S. Varma, K.P. Naicker, "The Urea-Hydrogen Peroxide Complex: Solid-State Oxidative Protocols for Hydroxylated Aldehydes and Ketones (Dakin Reaction), Nitriles, Sulfides, and Nitrogen Heterocycles", Org. Lett. (in German), vol. 1, no. 2, pp. 189–191, doi:10.1021/ol990522n
  18. ^ WO patent 2012069948, V. Mascitti, K.F. McClure, M.J. Munchhof, R.P. Robinson, Jr., "4-(5-Cyano-pyrazol-1-yl)-piperidine derivatives as GPR 119 modulators", issued 2012-5-31, assigned to Pfizer Inc. 
  19. ^ D. Rong; V.A. Phillips; R.S. Rubio; M.A. Castro; R.T. Wheelhouse, "A safe, convenient and efficient method for the preparation of heterocyclic N-oxides using urea-hydrogen peroxide", Tetrahedron Lett. (in German), vol. 49, no. 48, pp. 6933–6935, doi:10.1016/j.tetlet.2008.09.124
  20. ^ a b H. Heaney; A.J. Newbold (2001), "The oxidation of aromatic aldehydes by magnesium monoperoxyphthalate and urea-hydrogen peroxide", Tetrahedron Lett. (in German), vol. 42, no. 37, pp. 6607–6609, doi:10.1016/S0040-4039(01)01332-6
  21. ^ M.Y. Rios; E. Salazar; H.F. Olivo (2007), "Baeyer–Villiger oxidation of substituted cyclohexanones via lipase-mediated perhydrolysis utilizing urea–hydrogen peroxide in ethyl acetate", Green Chem. (in German), vol. 9, no. 5, pp. 459–462, doi:10.1039/B618175A
  22. ^ A. Watanabe; T. Uchida; K. Ito; T. Katsuki (2002), "Highly enantioselective Baeyer-Villiger oxidation using Zr(salen) complex as catalyst", Tetrahedron Lett. (in German), vol. 43, no. 25, pp. 4481–4485, doi:10.1016/S0040-4039(02)00831-6
  23. ^ L. Ji; Y.-N. Wang; C. Qian; X.-Z. Chen (2013), "Nitrile-promoted alkene epoxidation with urea-hydrogen peroxide (UHP)", Synth. Commun. (in German), vol. 43, no. 16, pp. 2256–2264, doi:10.1080/00397911.2012.699578, S2CID 93770740
  24. ^ "Hydrogen peroxide urea SDS". merckmillipore.com. 16 May 2023.
  25. ^ Halleux, Francis; Pons, Jean‐François; Wilson, Ian; Van Riet, Romuald; Lefebvre, Michel (2022). "Small-Scale Detonation of Industrial Urea-Hydrogen Peroxide (UHP)". Propellants, Explosives, Pyrotechnics. 47 (2). doi:10.1002/prep.202100250. hdl:1826/17469. S2CID 244899815.
  26. ^ Halleux, Francis; Pons, Jean‐François; Wilson, Ian; Simoens, Bart; Van Riet, Romuald; Lefebvre, Michel (2023). "Detonation performance of urea‐hydrogen peroxide (UHP)". Propellants, Explosives, Pyrotechnics. 48 (6). doi:10.1002/prep.202300011. S2CID 257196173.

External links edit

  • "Hydrogen peroxide urea adduct, UHP". Organic Chemistry Portal.
  • "Carbamide Peroxide Monograph". Drugs.com.

January 01, 1970
hydrogen, peroxide, urea, also, called, hyperol, artizone, urea, hydrogen, peroxide, white, crystalline, solid, chemical, compound, composed, equal, amounts, hydrogen, peroxide, urea, contains, solid, water, free, hydrogen, peroxide, which, offers, higher, sta. Hydrogen peroxide urea also called Hyperol artizone urea hydrogen peroxide and UHP is a white crystalline solid chemical compound composed of equal amounts of hydrogen peroxide and urea It contains solid and water free hydrogen peroxide which offers a higher stability and better controllability than liquid hydrogen peroxide when used as an oxidizing agent Often called carbamide peroxide in dentistry it is used as a source of hydrogen peroxide when dissolved in water for bleaching disinfection and oxidation Hydrogen peroxide urea Names IUPAC name Hydrogen peroxide urea 1 1 Systematic IUPAC name Peroxol carbonyl diamide 1 1 Other names Urea peroxide percarbamide UHP Identifiers CAS Number 124 43 6 Y 3D model JSmol Interactive image ChEBI CHEBI 75178 ChemSpider 29034 Y ECHA InfoCard 100 004 275 PubChem CID 31294 UNII 31PZ2VAU81 Y CompTox Dashboard EPA DTXSID9024726 InChI InChI 1S CH4N2O H2O2 c2 1 3 4 1 2 h H4 2 3 4 1 2H YKey AQLJVWUFPCUVLO UHFFFAOYSA N Y SMILES O C N N OO Properties Chemical formula C H 6N 2O 3 Molar mass 94 070 g mol 1 Appearance White solid Density 1 50 g cm3 Melting point 75 to 91 5 C 167 0 to 196 7 F 348 1 to 364 6 K decomposes Pharmacology ATC code D02AE01 WHO Hazards GHS labelling 1 Pictograms Signal word Danger Hazard statements H272 H315 H318 Precautionary statements P210 P220 P264 P280 P302 P352 P305 P351 P338 Flash point 60 C 140 F 333 K Safety data sheet SDS External MSDS Except where otherwise noted data are given for materials in their standard state at 25 C 77 F 100 kPa Y verify what is Y N Infobox references Contents 1 Production 2 Structure and properties 3 Applications 3 1 Disinfectant and bleaching agent 3 2 Reagent in organic synthesis 4 Safety 5 See also 6 References 7 External linksProduction editFor the preparation of the complex urea is dissolved in 30 hydrogen peroxide molar ratio 2 3 at temperatures below 60 C upon cooling this solution hydrogen peroxide urea precipitates in the form of small platelets 2 Akin to water of crystallization hydrogen peroxide cocrystallizes with urea with the stoichiometry of 1 1 The compound is simply produced on a scale of several hundred tonnes a year by the dissolution of urea in excess concentrated hydrogen peroxide solution followed by crystallization 3 The laboratory synthesis is analogous 4 Structure and properties editThe solid state structure of this adduct has been determined by neutron diffraction 5 Hydrogen peroxide urea is a readily water soluble odorless crystalline solid which is available as white powder or colorless needles or platelets 2 Upon dissolving in various solvents the 1 1 complex dissociates back to urea and hydrogen peroxide So just like hydrogen peroxide the erroneously so called adduct is an oxidizer but the release at room temperature in the presence of catalysts proceeds in a controlled manner Thus the compound is suitable as a safe substitute for the unstable aqueous solution of hydrogen peroxide Because of the tendency for thermal decomposition which accelerates at temperatures above 82 C 6 it should not be heated above 60 C particularly in pure form The solubility of commercial samples varies from 0 05 g mL 7 to more than 0 6 g mL 8 Applications editDisinfectant and bleaching agent edit Hydrogen peroxide urea is mainly used as a disinfecting and bleaching agent in cosmetics and pharmaceuticals 3 As a drug this compound is used in some preparations for the whitening of teeth 3 9 10 It is also used to relieve minor inflammation of gums oral mucosal surfaces and lips including canker sores and dental irritation 11 and to emulsify and disperse earwax 12 Carbamide peroxide is also suitable as a disinfectant e g for germ reduction on contact lens surfaces or as an antiseptic for mouthwashes ear drops or for superficial wounds and ulcers Reagent in organic synthesis edit In the laboratory it is used as a more easily handled replacement for hydrogen peroxide 4 13 14 It has proven to be a stable easy to handle and effective oxidizing agent which is readily controllable by a suitable choice of the reaction conditions It delivers oxidation products in an environmentally friendly manner and often in high yields especially in the presence of organic catalysts such as cis butenedioic anhydride 15 or inorganic catalysts such as sodium tungstate 16 nbsp Reaktionen mit Carbamidperoxid verification needed It converts thiols selectively to disulfides 15 secondary alcohols to ketones 16 sulfides to sulfoxides and sulfones 17 nitriles to amides 17 18 and N heterocycles to amine oxides 17 19 nbsp Reaktionen von Methoxyphenolen mit UHP Hydroxybenzaldehydes are converted to dihydroxybenzenes Dakin reaction 17 20 and give under suitable conditions the corresponding benzoic acids 20 nbsp Baeyer Villiger Oxidation mit UHP It oxidizes ketones to esters in particular cyclic ketones such as substituted cyclohexanones 21 or cyclobutanones 22 to give lactones Baeyer Villiger oxidation The epoxidation of various alkenes in the presence of benzonitrile yields oxiranes in yields of 79 to 96 23 nbsp Epoxidierung von Cyclohexen mit UHP The oxygen atom transferred to the alkene originates from the peroxoimide acid formed intermediately from benzonitrile The resulting imidic acid tautomerizes to the benzamide Safety editThe compound acts as a strong oxidizing agent and can cause skin irritation and severe eye damage 24 Urea hydrogen peroxide was also found to be an insensitive high explosive capable of detonation by strong impulse under heavy confinement 25 26 See also editSodium percarbonate Peroxide based bleachReferences edit GHS Sigma Aldrich 289132 a b C S Lu E W Hughes P A Giguere 1941 The crystal structure of the urea hydrogen peroxide addition compound CO NH2 2 H2O2 J Am Chem Soc vol 63 no 6 pp 1507 1513 doi 10 1021 ja01851a007 a b c Harald Jakob Stefan Leininger Thomas Lehmann Sylvia Jacobi Sven Gutewort Peroxo Compounds Inorganic Ullmann s Encyclopedia of Industrial Chemistry Weinheim Wiley VCH doi 10 1002 14356007 a19 177 pub2 ISBN 978 3527306732 a b Yu Lei Meng Bo Huang Xian 2008 Urea Hydrogen Peroxide Complex A Selective Oxidant in the Synthesis of 2 Phenylselenyl 1 3 butadienes Synthetic Communications 38 18 3142 doi 10 1080 00397910802109224 S2CID 98323467 Fritchie C J Jr McMullan R K 1981 Neutron Diffraction Study of the 1 1 Urea Hydrogen Peroxide complex at 81 K Acta Crystallographica Section B 37 5 1086 doi 10 1107 S0567740881005116 H Heaney F Cardona A Goti A L Frederick 2013 Hydrogen Peroxide Urea Encyclopedia of Reagents for Organic Synthesis doi 10 1002 047084289X rh047 pub3 ISBN 978 0471936237 a href Template Cite book html title Template Cite book cite book a periodical ignored help Sigma Aldrich specification sheet Chemicalland data sheet Mokhlis G R Matis B A Cochran M A Eckert G J 2000 A Clinical Evaluation of Carbamide Peroxide and Hydrogen Peroxide Whitening Agents during Daytime Use Journal of the American Dental Association 131 9 1269 77 doi 10 14219 jada archive 2000 0380 PMID 10986827 Archived from the original on 2013 02 23 Toothwhitening Archived 2008 03 17 at the Wayback Machine from the UMD of New Jersey website Center for Integrative Medicine Carbamide Peroxide from the University of Maryland Medical Center website Archived October 18 2007 at the Wayback Machine Ear Drops GENERIC NAME S CARBAMIDE PEROXIDE WebMD Retrieved July 3 2021 Varma Rajender S Naicker Kannan P 1999 The Urea Hydrogen Peroxide Complex Solid State Oxidative Protocols for Hydroxylated Aldehydes and Ketones Dakin Reaction Nitriles Sulfides and Nitrogen Heterocycles Organic Letters 1 2 189 doi 10 1021 ol990522n Harry Heaney Francesca Cardona Andrea Goti Hydrogen Peroxide Urea Encyclopedia of Reagents for Organic Synthesis 2008 doi 10 1002 047084289X rh047 pub2 a b B Karami M Montazerozohori M H Habibi 2005 Urea Hydrogen Peroxide UHP oxidation of thiols to the corresponding disulfides promoted by maleic anhydride as mediator PDF Molecules in German vol 10 no 10 pp 1358 1363 doi 10 3390 10101385 PMC 6147623 PMID 18007530 a b M Lukasiewicz D Bogdal J Pielichowski Microwave assisted oxidation of alcohols using urea hydrogen peroxide 8th International Electronic Conference on Synthetic Organic Chemistry ECSOC 8 Retrieved 2016 05 10 a b c d R S Varma K P Naicker The Urea Hydrogen Peroxide Complex Solid State Oxidative Protocols for Hydroxylated Aldehydes and Ketones Dakin Reaction Nitriles Sulfides and Nitrogen Heterocycles Org Lett in German vol 1 no 2 pp 189 191 doi 10 1021 ol990522n WO patent 2012069948 V Mascitti K F McClure M J Munchhof R P Robinson Jr 4 5 Cyano pyrazol 1 yl piperidine derivatives as GPR 119 modulators issued 2012 5 31 assigned to Pfizer Inc D Rong V A Phillips R S Rubio M A Castro R T Wheelhouse A safe convenient and efficient method for the preparation of heterocyclic N oxides using urea hydrogen peroxide Tetrahedron Lett in German vol 49 no 48 pp 6933 6935 doi 10 1016 j tetlet 2008 09 124 a b H Heaney A J Newbold 2001 The oxidation of aromatic aldehydes by magnesium monoperoxyphthalate and urea hydrogen peroxide Tetrahedron Lett in German vol 42 no 37 pp 6607 6609 doi 10 1016 S0040 4039 01 01332 6 M Y Rios E Salazar H F Olivo 2007 Baeyer Villiger oxidation of substituted cyclohexanones via lipase mediated perhydrolysis utilizing urea hydrogen peroxide in ethyl acetate Green Chem in German vol 9 no 5 pp 459 462 doi 10 1039 B618175A A Watanabe T Uchida K Ito T Katsuki 2002 Highly enantioselective Baeyer Villiger oxidation using Zr salen complex as catalyst Tetrahedron Lett in German vol 43 no 25 pp 4481 4485 doi 10 1016 S0040 4039 02 00831 6 L Ji Y N Wang C Qian X Z Chen 2013 Nitrile promoted alkene epoxidation with urea hydrogen peroxide UHP Synth Commun in German vol 43 no 16 pp 2256 2264 doi 10 1080 00397911 2012 699578 S2CID 93770740 Hydrogen peroxide urea SDS merckmillipore com 16 May 2023 Halleux Francis Pons Jean Francois Wilson Ian Van Riet Romuald Lefebvre Michel 2022 Small Scale Detonation of Industrial Urea Hydrogen Peroxide UHP Propellants Explosives Pyrotechnics 47 2 doi 10 1002 prep 202100250 hdl 1826 17469 S2CID 244899815 Halleux Francis Pons Jean Francois Wilson Ian Simoens Bart Van Riet Romuald Lefebvre Michel 2023 Detonation performance of urea hydrogen peroxide UHP Propellants Explosives Pyrotechnics 48 6 doi 10 1002 prep 202300011 S2CID 257196173 External links edit Hydrogen peroxide urea adduct UHP Organic Chemistry Portal Carbamide Peroxide Monograph Drugs com Retrieved from https en wikipedia org w index php title Hydrogen peroxide urea amp oldid 1192582121, wikipedia, wiki, book, books, library,

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