89-78-1 Usage
Description
DL-Menthol, also known as (±)-Menthol, is a racemic mixture of the monoterpene alcohols (–)-menthol and (+)-menthol. It is a white crystalline solid with a peppermint odor and taste, and has a cool, refreshing, and pleasant mint aroma. DL-Menthol is found in peppermint and other mint oils, as well as in various fruits, vegetables, and spices.
Uses
Used in Medicine:
DL-Menthol is used as a cooling agent in medicine, for its analgesic, antibacterial, and anticancer properties, as well as its ability to inhibit cholinesterase.
Used in Oral Care:
DL-Menthol is used in toothpaste, toothpowder, and mouthwash for its cool taste, which enhances the smell of peppermint oil, and for its refreshing and disinfecting effects.
Used in Fragrances:
DL-Menthol is used as a香料 in colognes and to enhance the tone and aroma of low-grade soap and detergent fragrances such as roses, geraniol, lavender, and others.
Used in Food and Beverages:
DL-Menthol is used as a flavoring agent in food, candy, beverages, and as a spice in wine and tobacco.
Used in Chemical Analysis:
DL-Menthol may be used as an extraction solvent for the determination of parabens in food products, cosmetics, and pharmaceuticals using liquid-liquid microextraction with high-performance liquid chromatography-diode array detection (HPLC-DAD). It may also be used for the preparation of hydrophobic deep eutectic solvent (DES) in the extraction and determination of methylparaben, propylparaben, and butylparaben from cosmetics samples using syringe-to-syringe dispersive magnetic nanofluid microextraction procedure (SS-DMNF-ME) with high-performance liquid chromatography technique (HPLC).
Used in Liqueurs, Confectionery, Perfumery, Cigarettes, Cough Drops, and Nasal Inhalers:
DL-Menthol is used for its cooling and refreshing properties in various consumer products.
Used in TRPM8 Receptor Activation:
DL-Menthol is a chemical that triggers cold-sensitive TRPM8 receptors in the skin neurons in vitro, which may have potential applications in various fields.
Storage Requirements:
DL-Menthol should be stored in a cool, sealed place, away from wind and rain.
Flavors and fragrances
Menthol is a cyclic terpene alcohol flavors and fragrances with its appearance exhibiting colorless needle or shuttle columnar crystal or white crystalline powder. It has special aroma of mint with its taste being hot at first but then being cool later. It exhibit neutralizing reaction in the ethanol solution, being extremely easily soluble in ethanol, chloroform, petroleum ether, ether, liquid paraffin or volatile oil and being very slightly soluble in water.
Its molecular structure contains three asymmetric carbon atoms, so it has four stereoisomers with their aroma intensity and type and cool feeling being different. There are two common types: natural menthol and synthetic menthol. Natural menthol is a kind of saturated ring alcohol obtained through the freezing & crystallization, separation and refinement of peppermint oil with the optical rotation being L; synthetic menthol is made from taking lemon eucalyptus oil as raw material.
Its main component can be manufactured from the ring closing reaction of citronellal to obtain isopulegol, followed by hydrogenation, or through the synthesis of thymol from m-cresol with catalytic hydrogenation resulting in four menthol mixture of isomers with the precise vacuum distillation obtaining defined synthetic menthol, being racemate with no optical rotation. It has bactericidal and anti-corrosion effect and can be used as the fragrance of toothpaste, perfume, beverages and confectionery. In the medicine, it can be used for making cool oil, painkillers, mouthwash, and so on.
The main applications are as follows:
1. Menthol can act on the skin sensory nerve end, making the skin surface to produce cool feeling, achieving the purpose of itching prevention. Topical administration to the affected area can be used for the treatment of urticaria, prurigo, prickly heat, rash, neurodermatitis and skin pruritus and so on.
2. It can be used for the treatment of headache, nasal congestion and sore throat. This product has pleasant aroma and has curing effect on treating cold and wind heat. It has effects of refreshing the mind and clearing the throat.
First aid of poisoning
Topical application of menthol have effects of promoting blood circulation and anti-inflammatory, anti-itching and can be applied to anti-inflammatory, antipruritic, analgesic and reducing swelling and so on.
【Diagnosis】
1. Oral administration of large amount of menthol or inhaling of large amount of menthol gas can lead to gastrointestinal symptoms such as nausea, vomiting and abdominal pain as well as nervous system symptoms such as excitement, tremor, dizziness, vertigo, hand and foot numbness, swing gait, lethargy, breathing changes, facial flushing, reduced blood pressure, muscle rigidity or relaxation, occasional being not able to speak; children, after taking a large dose, can have coma. But it can be generally restored within a few hours.
2. Patients allergic to this chemical can get with eczema with unbearable itching feeling.
3. Small infants, sometimes due to nasal mint liquid or ointment, can get glottis spasm, accompanied with bruising and suffocation as well as secretion of large amounts of mucus. In severe cases, it may be occurred of respiratory and cardiac arrest.
【Treatment principles】
1. Gastric lavage; conduct catharsis with salt cathartic. Avoid using fats and oils.
2. Apply intravenous rehydration to promote excretion.
3. In cases of allergic symptoms, we should treat with antihistamines such as diphenhydramine, chlorpheniramine, etc.; if necessary, we can apply hydrocortisone or dexamethasone intravenously.
Detection method
(1) Chemical qualitative method
① take 1 g of this product, add 20 mL of sulfuric acid to dissolve it, so the reaction mixture becomes orange-red. After 24h, there will be colorless oil layer of non-menthol aroma precipitated out (the distinction from thymol).
② take 50 mg of this product, add 1mL of ice acetic acid to dissolve it; Addition of 6 drops of sulfuric acid and 1 drop of nitric acid to the cold mixture will lead to only slightly yellow color (the difference from thymol).
(2) thin-layer chromatography: take appropriate amount of menthol and dissolve in anhydrous ethanol, make a solution containing 6 mg menthol per mL for spotting. TLC: silica gel G manual plating, make it dry; have it subjected to activation in 105 °C for 1 hour and standby. Developing agent A: n-hexane-ethyl acetate-benzene (43: 4.5: 4); Developing agent B: petroleum-ether-ethyl acetate-chloroform (25: 2.5: 5.5). Coloration reagent: 5% vanillin ethanol solution-concentrated sulfuric acid (100: 6). Coloration: heating at 105 ℃ for 6~10min, exhibiting a circular blue spots.
(3) Determination of physical constants: melting point: 42 ℃~44 °C. Specific rotation: take this product for accurately weighing; add ethanol to make a solution of 0.1 g/mL. Measure according to the method, the specific rotation is-49 ° ~-50 °.
(4) non-volatile matter: take 2 g of this product and place it in the pre-weighed evaporating dish; have it heated in the water bath so it is slowly evaporated; dried at 105 ℃ to constant weight with the leftover residue not exceeding 1mg.
History
In the world of aromatic chemicals, menthol is often described as a unique source
of skin and mucous membranes. Menthol is mainly extracted from natural plants.
The vast majority of natural menthol in the global market is extracted from numerous Asian mint. In 2006, the world’s natural menthol production is 12,800?tons or
more. However, due to various factors, the production of natural menthol is becoming less and less. Since the 1960s, Japan, Germany, and other countries had developed the synthetic menthol products. In 1974 the German company Symrise and
Japan Takasago Fluidic Systems company launched chemical synthesis of menthol.
At present, attention has been paid to the study of menthol analogy substances and
the effect of the changes of molecular structure on the aroma and cool sensation.
Some studies have shown that hydroxyl groups located in the branched or 1, 4 chain
cannot show a sense of cool. The researchers believed that menthol analogy substances with optical activity should be able to show different, surprising cooling
effect, and the structure of hydroxyl alkyl groups is the key point to have a cooling
effect. The Japanese chemist Ryoji Noyo and his colleagues found that in
BINAP and rhodium complexes as catalysts for asymmetric hydrogenation reaction, the synthesis of menthol is very effective. Because of the contribution of asymmetric organic synthesis, they won the 2001 Nobel Prize in Chemistry.
Preparation
By hydrogenation of thymol.
Indications
For external application, it is applied locally and often used to relieve pain and itching. A nasal drip is used in the head cold. Inhalation or spray is used for sore throat.
Oral administration can promote digestion.
Air & Water Reactions
Insoluble in water.
Reactivity Profile
DL-Menthol is incompatible with butyl chloral hydrate, camphor, phenol, chloral hydrate, Exalgine, betanaphthol, resorcinol or thymol in triturations; potassium permanganate, chromium trioxide and pyrogallol. DL-Menthol is also incompatible with strong oxidizers.
Hazard
Irritant to mucous membranes on inhalation.
Fire Hazard
DL-Menthol is combustible.
Flammability and Explosibility
Notclassified
Biochem/physiol Actions
Menthol exhibits antifungal action on the membrane permeability and the cell wall consistency, this might leads to cell death or inhibition of the C. albicans filamentation. Therefore, it can be used as a potential therapeutic agent for candidiasis. In addition to antifungal activity, menthol also exhibits anesthetic, antispasmodic, anti-ulcer and antiviral properties. It is considered as a safe compound for animal life. Therefore, Menthol is widely used in pharmaceuticals, cosmetics and food industries.
Pharmacology
Menthol has a wide range of pharmacological effects. Menthol can stimulate the
nerve endings of skin and slowly penetrate into the skin, resulting in prolonged
congestion and reflex caused by deep vascular changes, adjusting the vascular function, and achieving therapeutic effects in topical application. Topical application of
compound has anti-inflammatory, analgesic, and anesthetic effects.In respiratory system: For treatment of bronchitis, it could reduce the respiratory
tract foam sputum and increase the effective ventilation cavity road. For treatment
of rhinitis and laryngitis, it exerts mitigation by promoting secretion and diluting
viscous mucus.In digestive system: Menthol showed the powerful effect on bile.In central nervous system: A small amount of peppermint can stimulate the central nervous system through the peripheral nerve to expand the skin capillaries, promote the secretion of sweat glands, increase heat dissipation, and show sweating
antipyretic effect.In addition, menthol has penetration-enhancing effect on many kinds of drugs;
the mechanism is related to the changes of the ultrastructure of the skin, which is
expected to be widely used in transdermal drug delivery agents. In vitro experiments, it had strong antibacterial activity against Staphylococcus aureus and
Bacillus proteus. Recently, British scientists found that mint leaves can prevent cancer lesions in the blood vessel growth to decrease blood supply for, showing a certain anti-tumor effect
Clinical Use
It can be clinically used to assist anesthesia, postoperative analgesia, intercostal
nerve block, trigeminal nerve block, occipital nerve block, and so on. When applied
locally, it can promote blood circulation, diminish inflammation, relieve itching,
relieve pain, relieve edema, and so on.
Safety Profile
Poison by intravenous
route. Moderately toxic by ingestion and
intraperitoneal routes. A severe eye irritant.
Incompatible with phenol, p-naphthol,
resorcinol or thymol in trituration,
potassium permanganate, chromium
trioxide, pyrogallol. Combustible liquid.
\When heated to decomposition it emits
acrid smoke and irritating fumes.
Check Digit Verification of cas no
The CAS Registry Mumber 89-78-1 includes 5 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 2 digits, 8 and 9 respectively; the second part has 2 digits, 7 and 8 respectively.
Calculate Digit Verification of CAS Registry Number 89-78:
(4*8)+(3*9)+(2*7)+(1*8)=81
81 % 10 = 1
So 89-78-1 is a valid CAS Registry Number.
InChI:InChI=1/2C10H20O/c2*1-7(2)9-5-4-8(3)6-10(9)11/h2*7-11H,4-6H2,1-3H3
89-78-1Relevant articles and documents
Gager et al.
, p. 339 (1969)
HYDROBORATION-OXIDATION PROCESS
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Page/Page column 9, (2021/09/11)
The present invention relates to the field of organic synthesis and, more specifically, it concerns a process for preparing compound of formula (I) by a hydroboration-oxidation reaction of compound of formula (II).
Preparation of Neutral trans - Cis [Ru(O2CR)2P2(NN)], Cationic [Ru(O2CR)P2(NN)](O2CR) and Pincer [Ru(O2CR)(CNN)P2] (P = PPh3, P2= diphosphine) Carboxylate Complexes and their Application in the Catalytic Carbonyl Compounds Reduction
Baldino, Salvatore,Giboulot, Steven,Lovison, Denise,Nedden, Hans Günter,P?thig, Alexander,Zanotti-Gerosa, Antonio,Zuccaccia, Daniele,Ballico, Maurizio,Baratta, Walter
, p. 1086 - 1103 (2021/05/06)
The diacetate complexes trans-[Ru(κ1-OAc)2(PPh3)2(NN)] (NN = ethylenediamine (en) (1), 2-(aminomethyl)pyridine (ampy) (2), 2-(aminomethyl)pyrimidine (ampyrim) (3)) have been isolated in 76-88% yield by reaction of [Ru(κ2-OAc)2(PPh3)2] with the corresponding nitrogen ligands. The ampy-type derivatives 2 and 3 undergo isomerization to the thermodynamically most stable cationic complexes [Ru(κ1-OAc)(PPh3)2(NN)]OAc (2a and 3a) and cis-[Ru(κ1-OAc)2(PPh3)2(NN)] (2b and 3b) in methanol at RT. The trans-[Ru(κ1-OAc)2(P2)2] (P2 = dppm (4), dppe (5)) compounds have been synthesized from [Ru(κ2-OAc)2(PPh3)2] by reaction with the suitable diphosphine in toluene at 95 °C. The complex cis-[Ru(κ1-OAc)2(dppm)(ampy)](6) has been obtained from [Ru(κ2-OAc)2(PPh3)2] and dppm in toluene at reflux and reaction with ampy. The derivatives trans-[Ru(κ1-OAc)2P2(NN)] (7-16; NN = en, ampy, ampyrim, 8-aminoquinoline; P2 = dppp, dppb, dppf, (R)-BINAP) can be easily synthesized from [Ru(κ2-OAc)2(PPh3)2] with a diphosphine and treatment with the NN ligands at RT. Alternatively these compounds have been prepared from trans-[Ru(OAc)2(PPh3)2(NN)] by reaction with the diphosphine in MEK at 50 °C. The use of (R)-BINAP affords trans-[Ru(κ1-OAc)2((R)-BINAP)(NN)] (NN = ampy (11), ampyrim (15)) isolated as single stereoisomers. Treatment of the ampy-type complexes 8-15 with methanol at RT leads to isomerization to the cationic derivatives [Ru(κ2-OAc)P2(NN)]OAc (8a-15a; NN = ampy, ampyrim; P2 = dppp, dppb, dppf, (R)-BINAP). Similarly to 2, the dipivalate trans-[Ru(κ1-OPiv)2(PPh3)2(ampy)] (18) is prepared from [Ru(κ2-OPiv)2(PPh3)2] (17) and ampy in CHCl3. The pincer acetate [Ru(κ1-OAc)(CNNOMe)(PPh3)2] (19) has been synthesized from [Ru(κ2-OAc)2(PPh3)2] and HCNNOMe ligand in 2-propanol with NEt3 at reflux. In addition, the dppb pincer complexes [Ru(κ1-OAc)(CNN)(dppb)] (CNN = AMTP (20), AMBQPh (21)) have been obtained from [Ru(κ2-OAc)2(PPh3)2], dppb, and HAMTP or HAMBQPh with NEt3, respectively. The acetate NN and pincer complexes are active in transfer hydrogenation with 2-propanol and hydrogenation with H2 of carbonyl compounds at S/C values of up to 10000 and with TOF values of up to 160000 h-1.