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    Chemistry

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    Also known as: Phenethyl alcohol, Phenylethyl alcohol, 60-12-8, Benzeneethanol, Phenylethanol, Benzyl carbinol
    Molecular Formula
    C8H10O
    Molecular Weight
    122.16  g/mol
    InChI Key
    WRMNZCZEMHIOCP-UHFFFAOYSA-N
    FDA UNII
    ML9LGA7468
    2-Phenylethanol
    An antimicrobial, antiseptic, and disinfectant that is used also as an aromatic essence and preservative in pharmaceutics and perfumery.
    1 2D Structure

    2-Phenylethanol

    2 Identification
    2.1 Computed Descriptors
    2.1.1 IUPAC Name
    2-phenylethanol
    2.1.2 InChI
    InChI=1S/C8H10O/c9-7-6-8-4-2-1-3-5-8/h1-5,9H,6-7H2
    2.1.3 InChI Key
    WRMNZCZEMHIOCP-UHFFFAOYSA-N
    2.1.4 Canonical SMILES
    C1=CC=C(C=C1)CCO
    2.2 Other Identifiers
    2.2.1 UNII
    ML9LGA7468
    2.3 Synonyms
    2.3.1 MeSH Synonyms

    1. 2 Phenylethanol

    2. Alcohol, Phenethyl

    3. Alcohol, Phenylethyl

    4. Benzyl Carbinol

    5. Beta Phenylethanol

    6. Beta-phenylethanol

    7. Carbinol, Benzyl

    8. Phenethyl Alcohol

    9. Phenylethanol

    10. Phenylethyl Alcohol

    2.3.2 Depositor-Supplied Synonyms

    1. Phenethyl Alcohol

    2. Phenylethyl Alcohol

    3. 60-12-8

    4. Benzeneethanol

    5. Phenylethanol

    6. Benzyl Carbinol

    7. Phenethanol

    8. 2-phenylethyl Alcohol

    9. 2-phenyl-ethanol

    10. 2-phenylethan-1-ol

    11. Beta-phenylethanol

    12. 2-phenethyl Alcohol

    13. Benzylmethanol

    14. Methanol, Benzyl-

    15. Benzenethanol

    16. Benzylcarbinol

    17. Phenethylalcohol

    18. 2-hydroxyethylbenzene

    19. Fema No. 2858

    20. 1-phenyl-2-ethanol

    21. Ethanol, 2-phenyl-

    22. 2-pea

    23. Phenyl Ethyl Alcohol

    24. 1321-27-3

    25. Beta-phenylethyl Alcohol

    26. Beta-pea

    27. 2-phenethanol

    28. .beta.-hydroxyethylbenzene

    29. .beta.-phenylethyl Alcohol

    30. Hydroxyethylbenzene

    31. Mfcd00002886

    32. .beta.-phenylethanol

    33. .beta.-pea

    34. Beta-phenethyl Alcohol

    35. .beta.-phenethyl Alcohol

    36. Phenylethyl Alcohol [usp]

    37. Nsc-406252

    38. .beta.-(hydroxyethyl)benzene

    39. Ml9lga7468

    40. Chebi:49000

    41. Ncgc00166215-02

    42. Dsstox_cid_6342

    43. Phenylethyl Alcohol (usp)

    44. Ethanol, Phenyl-

    45. Dsstox_rid_78104

    46. Dsstox_gsid_26342

    47. Caswell No. 655c

    48. Phenyl Ethanol(natural)

    49. Fema Number 2858

    50. Beta-fenylethanol

    51. Beta-fenylethanol [czech]

    52. 2-phenyl Ethanol

    53. Cas-60-12-8

    54. Phenethyl Alcohol (natural)

    55. Beta-fenethylalkohol [czech]

    56. Beta-fenethylalkohol

    57. Pel

    58. Smr000059156

    59. Hsdb 5002

    60. Einecs 200-456-2

    61. Epa Pesticide Chemical Code 001503

    62. Nsc 406252

    63. Brn 1905732

    64. Unii-ml9lga7468

    65. Benzene-ethanol

    66. Mellol

    67. Phenyl-ethanol

    68. Benzyl-methanol

    69. Ai3-00744

    70. 2-phenyiethanol

    71. Phenylethyl-alcohol

    72. .beta.-phenethanol

    73. .beta.-fenylethanol

    74. B-hydroxyethylbenzene

    75. Benzyl Ethyl Alcohol

    76. 2-phenyl-1-ethanol

    77. Benzeneethanol, 9ci

    78. Betaphenylethyl Alcohol

    79. .beta.-fenethylalkohol

    80. 2-phenylethanol, Usp

    81. Rose Oil (salt/mix)

    82. A-pea

    83. (2-hydroxyethyl)benzene

    84. Beta -hydroxyethylbenzene

    85. 2-phenylethanol, 99%

    86. .beta.-p.e.a.

    87. Phenylethyl Alcohol, Usan

    88. Bmse000659

    89. Phenylethyl, Beta- Alcohol

    90. Ec 200-456-2

    91. 2-(2-hydroxyethyl)benzene

    92. Schembl1838

    93. Wln: Q2r

    94. 4-06-00-03067 (beilstein Handbook Reference)

    95. Mls001066349

    96. Mls001336026

    97. Phenethyl Alcohol [mi]

    98. Phenethyl Alcohol, 8ci, Ban

    99. Chembl448500

    100. Phenethyl Alcohol [fcc]

    101. Phenylethyl, B- Alcohol

    102. Dtxsid9026342

    103. Phenethyl Alcohol [inci]

    104. Phenylethyl Alcohol [ii]

    105. Bdbm85807

    106. Fema 2858

    107. Phenethyl Alcohol [mart.]

    108. Hms2093h05

    109. Hms2233h06

    110. Hms3374p04

    111. Pharmakon1600-01505398

    112. Phenylethyl Alcohol [fhfi]

    113. Phenylethyl Alcohol [hsdb]

    114. Zinc895934

    115. Phenethyl Alcohol [who-dd]

    116. Bcp32115

    117. Cs-b1821

    118. Hy-b1290

    119. Nsc_6054

    120. Tox21_113544

    121. Tox21_201322

    122. Tox21_303383

    123. Bbl036905

    124. Nsc406252

    125. Nsc759116

    126. Phenylethyl Alcohol [usp-rs]

    127. S3703

    128. Stl281950

    129. 2-phenylethanol, >=99.0% (gc)

    130. Akos000249688

    131. Tox21_113544_1

    132. Ccg-213419

    133. Db02192

    134. Nsc-759116

    135. Cas_60-12-8

    136. Phenethyl Alcohol, >=99%, Fcc, Fg

    137. Ncgc00166215-01

    138. Ncgc00166215-03

    139. Ncgc00166215-05

    140. Ncgc00257347-01

    141. Ncgc00258874-01

    142. Ac-18484

    143. Phenylethyl Alcohol [usp Monograph]

    144. Sbi-0206858.p001

    145. Ft-0613332

    146. Ft-0673679

    147. P0084

    148. En300-19347

    149. C05853

    150. D00192

    151. D70868

    152. Phenethyl Alcohol, Natural, >=99%, Fcc, Fg

    153. Ab00698274_05

    154. A832606

    155. Q209463

    156. Sr-01000763553

    157. Phenylethyl Alcohol;phenethyl Alcohol;benzeneethanol

    158. Q-200318

    159. Sr-01000763553-2

    160. 0de4cadc-ab8a-4038-bd6f-ebd009885652

    161. F0001-1575

    162. Z234896351

    163. 2-phenylethanol;2-phenylethyl Alcohol;benzeneethanol;phenylethanol

    164. Phenylethyl Alcohol, United States Pharmacopeia (usp) Reference Standard

    165. Phenylethyl Alcohol, Pharmaceutical Secondary Standard; Certified Reference Material

    166. 19601-20-8

    2.4 Create Date
    2005-03-26
    3 Chemical and Physical Properties
    Molecular Weight 122.16 g/mol
    Molecular Formula C8H10O
    XLogP31.4
    Hydrogen Bond Donor Count1
    Hydrogen Bond Acceptor Count1
    Rotatable Bond Count2
    Exact Mass122.073164938 g/mol
    Monoisotopic Mass122.073164938 g/mol
    Topological Polar Surface Area20.2 Ų
    Heavy Atom Count9
    Formal Charge0
    Complexity65
    Isotope Atom Count0
    Defined Atom Stereocenter Count0
    Undefined Atom Stereocenter Count0
    Defined Bond Stereocenter Count0
    Undefined Bond Stereocenter Count0
    Covalently Bonded Unit Count1
    4 Drug and Medication Information
    4.1 Therapeutic Uses

    Anti-Infective Agents, Local; Disinfectants; Preservatives, Pharmaceutical

    National Library of Medicine's Medical Subject Headings online file (MeSH, 1999)

    Phenylethyl alcohol ... has been used in 0.5% conc as an antibacterial agent in ophthalmic solutions. /Phenylethyl alcohol/

    Grant, W.M. Toxicology of the Eye. 3rd ed. Springfield, IL: Charles C. Thomas Publisher, 1986., p. 725

    4.2 Minimum/Potential Fatal Human Dose

    3. 3= MODERATELY TOXIC: PROBABLE ORAL LETHAL DOSE (HUMAN) 0.5-5 G/KG; BETWEEN 1 OZ & 1 PINT (OR 1 LB) FOR 70 KG PERSON (150 LB).

    Gosselin, R.E., H.C. Hodge, R.P. Smith, and M.N. Gleason. Clinical Toxicology of Commercial Products. 4th ed. Baltimore: Williams and Wilkins, 1976., p. II-118

    5 Pharmacology and Biochemistry
    5.1 MeSH Pharmacological Classification

    Disinfectants

    Substances used on inanimate objects that destroy harmful microorganisms or inhibit their activity. Disinfectants are classed as complete, destroying SPORES as well as vegetative forms of microorganisms, or incomplete, destroying only vegetative forms of the organisms. They are distinguished from ANTISEPTICS, which are local anti-infective agents used on humans and other animals. (From Hawley's Condensed Chemical Dictionary, 11th ed) (See all compounds classified as Disinfectants.)

    Anti-Infective Agents, Local

    Substances used on humans and other animals that destroy harmful microorganisms or inhibit their activity. They are distinguished from DISINFECTANTS, which are used on inanimate objects. (See all compounds classified as Anti-Infective Agents, Local.)

    Preservatives, Pharmaceutical

    Substances added to pharmaceutical preparations to protect them from chemical change or microbial action. They include ANTI-BACTERIAL AGENTS and antioxidants. (See all compounds classified as Preservatives, Pharmaceutical.)

    5.2 Metabolism/Metabolites

    2-PHENYLETHANOL YIELDS PHENYLACETYLALDEHYDE IN RABBITS: SMITH JM ET AL, BIOCHEM J, 56, 320, 1954. /FROM TABLE/

    Goodwin, B.L. Handbook of Intermediary Metabolism of Aromatic Compounds. New York: Wiley, 1976., p. 24

    Phenylethyl alcohol is oxidized almost entirely to the corresponding acid. Metabolites excreted in urine following oral doses of 0.2 to 0.3 g/kg to rabbits were phenaceturic acid, the glycine conjugate of phenylacetic acid, 42%; glucosidurinic acid, 5%; and an ether-soluble acid, probably phenylacetic acid, 19%. Only 66% of the original dose could be accounted for. /Phenylethyl alcohol/

    Clayton, G. D. and F. E. Clayton (eds.). Patty's Industrial Hygiene and Toxicology: Volume 2A, 2B, 2C: Toxicology. 3rd ed. New York: John Wiley Sons, 1981-1982., p. 4643

    ... beta-Phenylethyl alcohol is a substrate for ADH, with an initial rate of oxidation nearly as high as that of allyl alcohol and appreciably greater than that of ethanol.

    Clayton, G. D. and F. E. Clayton (eds.). Patty's Industrial Hygiene and Toxicology: Volume 2A, 2B, 2C: Toxicology. 3rd ed. New York: John Wiley Sons, 1981-1982., p. 4643

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    Excipient Market Overview: Roquette, Seqens, Evonik make strategic moves; new guidelines deal with contamination

    Excipient Market Overview: Roquette, Seqens, Evonik make strategic moves; new guidelines deal with contamination

    The pharmaceutical industry has long recognized the critical role excipients or inactive ingredients play in drug formulation and delivery. Excipients can comprise up to 90 percent of a medicine's total ingredients and serve crucial functions as binders, disintegrants, coatings, preservatives, colors, and flavorings. According to recent market research, the pharmaceutical excipients market was valued at US$ 9.27 billion in 2023. It is growing at a compound annual growth rate (CAGR) of 7.03 percent and is projected to reach US$ 18.48 billion by 2032. The main factors driving market growth is an increased demand for multifunctional excipients, coupled with the expanding use of generic medications. The development in the biologics sector and advancements in nanotechnology are also contributing significantly to market growth. Major excipient providers include BASF, Evonik, Merck KGaA owned MilliporeSigma, Gangwal Healthcare, Roquette Frères, DuPont, Croda International, Seqens, Boai NKY Pharmaceuticals, PMC Isochem, Minakem, Kewpie Corporation, Ashland Global, SPI Pharma, Pfanstiehl, Nanjing Well Pharmaceutical, ICE Pharma, Anhui Ribobay Pharmaceutical and Nippon Fine Chemical.  View Our Dashboard on Major Excipient Companies in 2024 (Free Excel Available) WHO, India’s CDSCO tighten regulations; new GMP guidelines implemented to curb contamination Last year, the World Health Organization (WHO) issued a health alert linking at least 300 child deaths in the Gambia, Uzbekistan, and Indonesia to the ingestion of contaminated cough syrups containing unacceptable levels of diethylene glycol (DEG) and ethylene glycol (EG). In response to the tragic events, the WHO released two draft appendices to its guideline on good manufacturing practices (GMPs) for excipients this year. Manufacturers are now required to use suitable risk assessment tools to identify and mitigate potential hazards.  Since India-made cough syrups had been linked to the deaths, India’s drug regulator — Central Drugs Standard Control Organization (CDSCO) — took steps to prevent contamination, and advised drugmakers to only use pharmaceutical-grade excipients from approved sources. Furthermore, the Indian Health Ministry proposed amendments to the Drugs and Cosmetics Rules, 1945 to include details of excipients on drug labels. While listing all excipients on every strip of medicine may be challenging, the ministry suggested mentioning those causing hypersensitivity on the label. Applicants now mandatorily need to submit evidence of stability and safety of excipients. These regulatory developments have significant implications for excipient manufacturers and pharmaceutical companies worldwide. Leading pharmaceutical excipient firms like Gangwal Healthcare, Sigachi Industries, and Nitika Pharmaceuticals are well-positioned to meet these heightened quality and safety standards, given their long-standing commitment to producing high-quality, compliant excipients.  View Our Dashboard on Major Excipient Companies in 2024 (Free Excel Available)   Roquette buys IFF’s pharma unit for US$ 2.85 bn; Evonik opens new spray-drying facility in Darmstadt In a significant industry move, France-based Roquette entered into an agreement to acquire IFF's pharma solutions business in a deal valued at US$ 2.85 billion. This acquisition is set to rebalance family-owned Roquette’s portfolio around health and nutrition. The deal is expected to accelerate Roquette’s growth and significantly strengthen its presence in the excipients market. Evonik has opened a new facility for drying aqueous dispersions of its Eudragit polymers at its site in Darmstadt, Germany. The facility will help Evonik meet increasing demand from drugmakers for its oral drug delivery solutions. The plant uses green energy solutions. The company has also partnered University of Mainz to commercialize a new class of polyethylene glycols (PEG) lipids for nucleic acid delivery. Evonik’s Health Care business has been growing its nucleic acid drug and vaccine delivery portfolio.  Germany’s Johannes Gutenberg University of Mainz was the first to develop randomized polyethylene glycols (rPEGs). This collaboration aims to expand Evonik’s toolbox of technologies for nucleic acid-based medicines, offering an improved immunogenicity profile for lipid nanoparticle carriers used in mRNA vaccines and therapeutics. Asahi Kasei made significant strides in addressing a pressing industry concern that emerged in 2018 when potentially carcinogenic nitrosamine impurities were detected in several pharmaceuticals. Guided by regional authorities, such as the European Medicines Agency and the US Food and Drug Administration, the pharmaceutical industry has been carrying out extensive assessments and research to identify the cause of these impurities. In response to this challenge, Asahi Kasei developed its Ceolus microcrystalline cellulose with extremely low nitrite levels. The Japanese company achieved nitrite concentrations of 0.1 micrograms per gram or less, which is equivalent to 0.1 parts per million (ppm). The company also started full commercial operation of its second manufacturing facility for Ceolus in Japan, enhancing supply capacity and stability. JRS Pharma and Gujarat Microwax opened a state-of-the-art cotton-based croscarmellose sodium plant in Mehsana, Gujarat (India). This facility aims to produce high-quality excipients that meet global standards, potentially reducing India's dependency on imports and boosting its presence in the global excipient market. The Indian excipient industry accounts for less than 1 percent of the global market share.  View Our Dashboard on Major Excipient Companies in 2024 (Free Excel Available)   Seqens to advance innovative polymer; biologics, personalized medicine create demand for specialized excipients Recent industry collaborations highlight the ongoing innovation in novel excipients. France’s Seqens, with over 20 years of polymer development experience, was chosen by Pleryon Therapeutics to advance its leading osteoarthritis candidate – an innovative GMP polymer. This collaboration leverages Seqens’ newly expanded and modernized cGMP plant in Aramon, France, demonstrating the industry’s commitment to investing in advanced manufacturing capabilities for novel excipients.  The rise of biologics and personalized medicine has created a demand for specialized excipients capable of stabilizing complex molecules and enabling targeted drug delivery. Roquette’s launch of Lycagel Flex, a hydroxypropyl pemix for nutraceutical and pharmaceutical softgel capsules, exemplifies this trend. Built on Roquette’s market-first Lycagel pea starch technology, this plant-based alternative to gelatin offers manufacturers the flexibility to customize formulations for a range of production and end-user needs. The innovative pea starch foundation also underscores the industry’s move towards sustainable bio-based excipients. The trend towards patient-centric drug development has also influenced excipient innovation. Excipients that can improve palatability, ease of swallowing, or enable novel dosage forms (such as orally disintegrating tablets) are in high demand. For example, IFF brought a super disintegrant Ac-Di-Sol, that supports faster disintegration and drug dissolution in oral disintegrating tablets, improving patient experience.  View Our Dashboard on Major Excipient Companies in 2024 (Free Excel Available)   Our view The heightened regulatory scrutiny on excipients due to product contamination incidents has created a high risk perception and uncertainty around the regulatory acceptance of novel excipients. That said, novel excipients are central to the development of new drug modalities and therapies. Going forward, sustainability will also become an increasingly important factor in excipient selection and development. As the industry innovates towards biologics, personalized therapies, and patient-centric formulations, the role of high-quality, multifunctional excipients will only grow more vital in ensuring drug stability, bioavailability, and patient compliance. Companies that can navigate the complex regulatory landscape, invest in R&D, and offer high-quality, multifunctional excipients will be well-positioned to succeed in this evolving market.   
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    Looking for 60-12-8 / 2-Phenylethanol API manufacturers, exporters & distributors?

    2-Phenylethanol manufacturers, exporters & distributors 1

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    PharmaCompass offers a list of 2-Phenylethanol API manufacturers, exporters & distributors, which can be sorted by GMP, USDMF, JDMF, KDMF, CEP (COS), WC, Price,and more, enabling you to easily find the right 2-Phenylethanol manufacturer or 2-Phenylethanol supplier for your needs.

    Send us enquiries for free, and we will assist you in establishing a direct connection with your preferred 2-Phenylethanol manufacturer or 2-Phenylethanol supplier.

    PharmaCompass also assists you with knowing the 2-Phenylethanol API Price utilized in the formulation of products. 2-Phenylethanol API Price is not always fixed or binding as the 2-Phenylethanol Price is obtained through a variety of data sources. The 2-Phenylethanol Price can also vary due to multiple factors, including market conditions, regulatory modifications, or negotiated pricing deals.

    API | Excipient name

    2-Phenylethanol

    Synonyms

    Phenethyl alcohol, Phenylethyl alcohol, 60-12-8, Benzeneethanol, Phenylethanol, Benzyl carbinol

    Cas Number

    60-12-8

    Unique Ingredient Identifier (UNII)

    ML9LGA7468

    About 2-Phenylethanol

    An antimicrobial, antiseptic, and disinfectant that is used also as an aromatic essence and preservative in pharmaceutics and perfumery.

    2 Phenylethanol Manufacturers

    A 2 Phenylethanol manufacturer is defined as any person or entity involved in the manufacture, preparation, processing, compounding or propagation of 2 Phenylethanol, including repackagers and relabelers. The FDA regulates 2 Phenylethanol manufacturers to ensure that their products comply with relevant laws and regulations and are safe and effective to use. 2 Phenylethanol API Manufacturers are required to adhere to Good Manufacturing Practices (GMP) to ensure that their products are consistently manufactured to meet established quality criteria.

    2 Phenylethanol Suppliers

    A 2 Phenylethanol supplier is an individual or a company that provides 2 Phenylethanol active pharmaceutical ingredient (API) or 2 Phenylethanol finished formulations upon request. The 2 Phenylethanol suppliers may include 2 Phenylethanol API manufacturers, exporters, distributors and traders.

    2 Phenylethanol GMP

    2 Phenylethanol Active pharmaceutical ingredient (API) is produced in GMP-certified manufacturing facility.

    GMP stands for Good Manufacturing Practices, which is a system used in the pharmaceutical industry to make sure that goods are regularly produced and monitored in accordance with quality standards. The FDA’s current Good Manufacturing Practices requirements are referred to as cGMP or current GMP which indicates that the company follows the most recent GMP specifications. The World Health Organization (WHO) has its own set of GMP guidelines, called the WHO GMP. Different countries can also set their own guidelines for GMP like China (Chinese GMP) or the EU (EU GMP).

    PharmaCompass offers a list of 2 Phenylethanol GMP manufacturers, exporters & distributors, which can be sorted by USDMF, JDMF, KDMF, CEP (COS), WC, API price, and more, enabling you to easily find the right 2 Phenylethanol GMP manufacturer or 2 Phenylethanol GMP API supplier for your needs.

    2 Phenylethanol CoA

    A 2 Phenylethanol CoA (Certificate of Analysis) is a formal document that attests to 2 Phenylethanol's compliance with 2 Phenylethanol specifications and serves as a tool for batch-level quality control.

    2 Phenylethanol CoA mostly includes findings from lab analyses of a specific batch. For each 2 Phenylethanol CoA document that a company creates, the USFDA specifies specific requirements, such as supplier information, material identification, transportation data, evidence of conformity and signature data.

    2 Phenylethanol may be tested according to a variety of international standards, such as European Pharmacopoeia (2 Phenylethanol EP), 2 Phenylethanol JP (Japanese Pharmacopeia) and the US Pharmacopoeia (2 Phenylethanol USP).

    Inform the supplier about your product requirements, specifying if you need a product with particular monograph like EP (Ph. Eur.), USP, JP, BP, or any other quality. In addition, clarify whether you need hydrochloride (HCl), anhydricum, base, micronisatum or a specific level of purity. To find reputable suppliers, utilize the filters and select those certified by GMP, FDA, or any other certification as per your requirement.
    For your convenience, we have listed synonyms and CAS numbers to help you find the best supplier. The use of synonyms and CAS numbers can be helpful in identifying potential suppliers, but it is crucial to note that they might not always indicate the exact same product. It is important to confirm the product details with the supplier before making a purchase to ensure that it meets your requirements.
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