PURAC FCC

Purac fcc is the natural L-Lactic acid, which is produced by fermentation from carbohydrates. 
Purac fcc has several important applications in different fields, ranging from food and beverages to cosmetics and pharmaceuticals.
Purac fcc can serve as a precursor for the production of biofuels, such as bioethanol. 

CAS Number: 79-33-4
Molecular Formula: C3H6O3
Molecular Weight: 90.08
EINECS Number: 201-196-2

Purac fcc has a mild acid taste and is widely used as an acidulant in the food industry. 
Purac fcc’s primary functions are to preserve and flavor foods.
Purac fcc by Corbion and supplied regionally by Brenntag Specialties in EMEA acts as a moisturizing agent used in many skin care products. 

Purac fcc can be used in many applications in food and non food areas.
Purac fcc has a mild acid taste and is widely used as an acidulate in the food industry. 
Purac fcc has a mild acid taste and has the lowest irritation potential. 

The primary purpose of Purac fcc is to preserve flavor as well as the actual product.
Purac fcc is a type of organic acid that plays a crucial role in various biological processes. 
Purac fcc is classified as an alpha-hydroxy acid and is a key component in the metabolism of lactose, which is the sugar found in milk. 

Purac fcc is naturally present in the hair, produces a glossy, attractive appearance and is used as a pH-regulator in all kinds of hair care formulations. 
In anti-acne products, Purac fcc is used for its antimicrobial action.
Purac fcc is an organic acid. 

Purac fcc has a molecular formula CH3CH(OH)COOH. 
Purac fcc is white in the solid state and it is miscible with water.
When in the dissolved state, Purac fcc forms a colorless solution. 

Production includes both artificial synthesis as well as natural sources. 
Purac fcc is an alpha-hydroxy acid (AHA) due to the presence of a hydroxyl group adjacent to the carboxyl group. 
Purac fcc is used as a synthetic intermediate in many organic synthesis industries and in various biochemical industries. 

The conjugate base of lactic acid is called lactate.
Purac fcc is chiral, consisting of two enantiomers. 
One is known as l-(+)-lactic acid or (S)-lactic acid and the other, its mirror image, is d-(−)-lactic acid or (R)-lactic acid. 

A mixture of the two in equal amounts is called dl-lactic acid, or racemic lactic acid. 
Purac fcc is hygroscopic.
Purac fcc is miscible with water and with ethanol above its melting point, which is around 16, 17 or 18 °C. 

Purac fcc and l-lactic acid have a higher melting point. 
Purac fcc produced by fermentation of milk is often racemic, although certain species of bacteria produce solely (R)-lactic acid. 
On the other hand, lactic acid produced by anaerobic respiration in animal muscles has the (S) configuration and is sometimes called "sarcolactic" acid, from the Greek "sarx" for flesh.

Purac fcc can ionize by a loss of a proton to produce the lactate ion CH 3CH(OH)CO−.
Compared to acetic acid, its pKa is 1 unit less, meaning Purac fcc is ten times more acidic than acetic acid. 
This higher acidity is the consequence of the intramolecular hydrogen bonding between the α-hydroxyl and the carboxylate group.
Purac fcc is the natural L-Lactic acid, which is produced by fermentation from sugar. 

Purac fcc is a two-carbon compound with the chemical formula C₃H₆O₃. 
Purac fcc exists in two optical isomers: L-lactic acid and D-lactic acid. 
In biological systems, L-lactic acid is the predominant form.

In living organisms, Purac fcc is produced during anaerobic metabolism, particularly in muscle cells, when oxygen is insufficient for energy production through aerobic respiration. This process is known as lactic acid fermentation.
Purac fcc fermentation is a metabolic pathway that converts sugars, such as glucose, into lactic acid. 
This process is utilized in the production of certain foods and beverages, including yogurt, sauerkraut, and kimchi.

Purac fcc serves various functions in the food and beverage industry, including pH regulation, flavor enhancement, and as a preservative. 
Purac fcc is commonly used in the production of dairy products, pickled vegetables, and sourdough bread.
Due to its exfoliating and moisturizing properties, Purac fcc is used in cosmetics and personal care products, such as skin creams and peels. 

Purac fcc can help improve skin texture and promote a smoother complexion.
Purac fcc is used in the pharmaceutical industry for its role as an acidulant in oral and topical medications. 
Purac fcc can also be used as a chelating agent in certain formulations.

In the textile industry, Purac fcc is employed in dyeing and finishing processes. 
Purac fcc can act as a mordant, enhancing the absorption of dyes onto fabrics.
Purac fcc can be polymerized to form polylactic acid (PLA), which is a biodegradable and bioactive thermoplastic. 

Purac fcc has various applications, including in the production of biodegradable plastics.
Purac fcc is often used to adjust the pH of products in various industries. 
Purac fcc is buffering capacity makes it valuable for maintaining the desired acidity in different formulations.

Purac fcc is used in dermatology for its peeling and exfoliating properties. 
In medicine, lactate levels in the blood are sometimes monitored as an indicator of metabolic health.
Purac fccs such as cleansers, lotions and peels that contain lactic acid are applied topically to the skin, and they get right to work. 

Purac fccs improve skin's texture through exfoliation AHAs encourage the skin to slough off its old, dead skin cells revealing the glow of healthy skin cells hidden underneath. 
They help reduce the appearance of acne scars, age-related spots and pigmentation. 
They also help firm up sagging skin, fine lines and wrinkles by promoting collagen growth in the deeper layers of your skin. 

Not all skin texture problems can be solved with an AHA product. 
If skin develops thick patches or there are areas of swelling and Purac fcc doesn't seem to be working, it's time to see a doctor. 
Some skin conditions are caused by rosacea, skin cancer and other underlying illnesses such as diabetes, a vitamin deficiency or a thyroid problem.

Purac fcc is used in some cleaning products as an effective and environmentally friendly alternative to harsher acids. 
Purac fcc can be employed for descaling and removing mineral deposits.
Purac fcc is used for its ability to efficiently remove hair and residual flesh from hides during the processing of leather.

Purac fcc is sometimes used for cleaning and pickling metals. 
Purac fcc is mild acidic properties make it suitable for certain metal-cleaning applications.
Purac fcc is naturally produced during the fermentation of certain beers, contributing to their unique flavors. 

Some brewers also use Purac fcc to adjust the acidity of beer.
Purac fcc is sometimes used in teeth-whitening products due to its mild acidic nature, which can help remove surface stains.
Purac fcc and its salts are used in animal feed as acidifiers. 

They can contribute to maintaining an optimal pH environment in the digestive system of livestock.
Purac fcc can be used in wastewater treatment processes for its ability to enhance biological treatment and reduce odors.
Purac fcc is a natural L-lactic acid that is produced by the fermentation of sugar. 

Purac fcc can be converted into ethanol through fermentation processes.
Purac fcc is used as an acidic flavoring agent. 
Purac fcc can enhance the tartness in various food and beverage products.

Purac fcc exhibits antimicrobial properties, which can contribute to its use as a natural preservative in certain food products.
In addition to its natural occurrence in fermented dairy products, Purac fccis sometimes added to dairy items to adjust acidity and contribute to the desired flavor profile.
Purac fcc can be used in the baking industry to modify the texture and acidity of dough, contributing to the quality of baked goods.

Purac fcc is utilized in textile printing processes, where it can be involved in fixing dyes to fabrics.
Purac fcc and its derivatives are investigated for various biomedical applications, including drug delivery systems and tissue engineering.

Melting point: 52-54°C
alpha: -13.5 º (c=2.5, 1.5N NaOH)
Boiling point: 125 °C
Density: 1.206 g/mL at 25 °C
vapor pressure: 0.038Pa at 25℃
FEMA: 2611 | LACTIC ACID
refractive index: n20/D 1.427
Flash point: >230 °F
storage temp.: 2-8°C
solubility: H2O: 10 mg/mL, clear, colorless
form: Powder/Solid
pka: pK at 25°, 3.79
color: White
Odor: odorless acidic
Odor Type: odorless
optical activity: [α]20/D 13.5°, c = 2.5 in 1.5 M NaOH
Water Solubility: SOLUBLE
Sensitive: Hygroscopic
LogP: -0.54 at 20℃

In food, apart from its nutritional function for normal growth, Purac fcc improves flavor and taste, improves quality of food and beverage products such as confectionery, cake, milk powder, yogurt etc. as firming agent, buffering agent and flour regulator. 
Purac fcc increases effectiveness of antioxidants, prevents decolorization of fruits and vegetables.
Purac fcc as supplied is intended for research use only, not for use in human, therapeutic or diagnostic applications without the expressed written authorization of United States Biological.

Purac fcc is a popular ingredient in skincare products, particularly in exfoliating agents and chemical peels. 
Purac fcc helps remove dead skin cells, promoting smoother and more radiant skin.
Purac fcc is used in some products, such as shampoos and conditioners. 

Purac fcc can help balance the pH of the scalp and contribute to the overall health of the hair.
Purac fcc is sometimes used as a natural flavoring agent in beverages. 
Purac fcc can add a tangy or sour taste to certain drinks.

Purac fcc bacteria, including strains of Lactobacillus, produce lactic acid during fermentation. 
These bacteria are widely used in the production of fermented foods such as yogurt, sauerkraut, and kimchi.
Purac fcc has been historically used in the photographic industry for developing photos. 

Purac fcc played a role in certain photographic processes.
Purac fcc can act as a dough conditioner. 
Purac fcc influences the texture, flavor, and overall quality of baked goods.

Purac fcc and its salts are sometimes used as anti-corrosion agents in industrial applications, helping to protect metal surfaces.
Purac fcc can be used in the production of dairy alternatives, contributing to the tangy flavor in plant-based yogurts and cheeses.
Purac fcc supplements are available and are sometimes used to support digestive health.

However, Purac fcc's essential to use them with caution and under the guidance of a healthcare professional.
Purac fcc is used in research settings for various applications, including cell culture and studies related to metabolism and physiology.
Purac fcc is employed as a pH regulator and buffer in various industrial processes.

Purac fcc is sometimes used in the preservation and processing of fruits and vegetables. 
Purac fcc can contribute to maintaining product quality.
Purac fcc fermentation is studied and applied in biochemical engineering for the production of lactic acid and its derivatives on a larger scale.

Purac fcc can be used to enhance the bioavailability of certain drugs, improving their absorption in the body.
Purac fcc and its derivatives are investigated for their use in controlled-release drug delivery systems, allowing for the gradual release of medication.
Purac fcc fermentation by microorganisms is explored in environmental biotechnology for its potential role in waste treatment processes.

Purac fcc fermentation is performed by lactic acid bacteria, which convert simple carbohydrates such as glucose, sucrose, or galactose to lactic acid. 
These bacteria can also grow in the mouth; the acid they produce is responsible for the tooth decay known as caries. 
In medicine, lactate is one of the main components of lactated Ringer's solution and Hartmann's solution. 

These intravenous fluids consist of sodium and potassium cations along with lactate and chloride anions in solution with distilled water, generally in concentrations isotonic with human blood. 
Purac fcc is most commonly used for fluid resuscitation after blood loss due to trauma, surgery, or burns.
Purac fcc is a key building block for the production of polylactic acid (PLA), a biodegradable and compostable polymer. 

Purac fcc is used in the production of bioplastics, packaging materials, and disposable items.
Purac fcc is used as a complexing agent in the electroplating solutions for certain metals.
Certain dermal fillers used in cosmetic procedures may contain lactic acid. 

These fillers can provide temporary improvements in skin appearance.
Purac fcc is used for treating metal surfaces, particularly aluminum, to improve adhesion properties before coating processes.
Purac fcc is involved in various biochemical synthesis pathways, contributing to the production of certain biomolecules and compounds.

Purac fcc and its derivatives find applications in the oil and gas industry, where they may be used for tasks such as acidizing to enhance well productivity.
Purac fcc can enhance the absorption of calcium in the digestive system. 
This property is utilized in the food industry and is important for bone health.

Purac fcc fermentation is employed in the production of enzymes.
Purac fcc bacteria are sometimes used to produce enzymes for various industrial applications.
Purac fcc and its derivatives can act as inhibitors against microbial-induced corrosion in certain industrial systems.

Purac fcc can act as a chelating agent, forming complexes with metal ions. 
This property is utilized in various industrial processes, including metal cleaning and wastewater treatment.
Purac fcc and its derivatives can be involved in photopolymerization processes, contributing to the formation of polymeric materials.

Purac fcc fermentation by certain bacteria can be utilized for the production of hydrogen gas in biohydrogen processes.
Purac fcc supplements, often in the form of salts such as calcium lactate, are used as dietary supplements to provide a source of lactate.
Purac fcc is used in the preservation of biological samples, such as tissues, by acting as a fixative.

Purac fcc is chiral, and its enantiomers are used in chiral synthesis for the production of pharmaceuticals and fine chemicals.
In lists of nutritional information Purac fcc might be included under the term "carbohydrate" (or "carbohydrate by difference") because this often includes everything other than water, protein, fat, ash, and ethanol. 
If this is the case then the calculated food energy may use the standard 4 kilocalories (17 kJ) per gram that is often used for all carbohydrates. 

But in some cases Purac fcc is ignored in the calculation. The energy density of lactic acid is 362 kilocalories (1,510 kJ) per 100 g. 
Some beers (sour beer) purposely contain Purac fcc, one such type being Belgian lambics. Most commonly, this is produced naturally by various strains of bacteria. 
These bacteria ferment sugars into acids, unlike the yeast that ferment sugar into ethanol. 

After cooling the wort, yeast and bacteria are allowed to “fall” into the open fermenters. 
Brewers of more common beer styles would ensure that no such bacteria are allowed to enter the fermenter. 
Other sour styles of beer include Berliner weisse, Flanders red and American wild ale.

In winemaking, a bacterial process, natural or controlled, is often used to convert the naturally present malic acid to lactic acid, to reduce the sharpness and for other flavor-related reasons. 
This malolactic fermentation is undertaken by lactic acid bacteria.
While not normally found in significant quantities in fruit, Purac fcc is the primary organic acid in akebia fruit, making up 2.12% of the juice.

As a food additive Purac fcc is approved for use in the EU, USA and Australia and New Zealand; it is listed by its INS number 270 or as E number E270. 
Purac fcc is used as a food preservative, curing agent, and flavoring agent. 
Purac fcc is an ingredient in processed foods and is used as a decontaminant during meat processing. 

Purac fcc is produced commercially by fermentation of carbohydrates such as glucose, sucrose, or lactose, or by chemical synthesis. 
Carbohydrate sources include corn, beets, and cane sugar.
Purac fcc, or lactate, is a chemical byproduct of anaerobic respiration — the process by which cells produce energy without oxygen around. 

Bacteria produce it in yogurt and our guts. 
Purac fcc is also in our blood, where it's deposited by muscle and red blood cells.
It was long thought that lactic acid was the cause of muscle soreness during and after an intense period of exercise, but recent research suggests that's not true, said Michael Gleeson, an exercise biochemist at Loughborough University in the U.K., and author of "Eat, Move, Sleep, Repeat" (Meyer & Meyer Sport, 2020).

Concentrations of acids vary depending on the level of damage being treated, allowing for superficial to deep peel options. 
Alpha hydroxy acid peels, including lactic acid, are offered in concentrations ranging from 10-70 percent, with 50-70 percent being the most common concentrations used in facial peels. 
At concentrations greater than 30 percent, a Purac fcc peel is a chemical exfoliant, dissolving dead skin cells from the top layers of skin.

Uses Of Purac fcc:
Occurs in small quantities in the blood and muscle fluid of man and animals. 
The Purac fcc concentration increases in muscle and blood after vigorous activity.
Purac fcc is also present in liver, kidney, thymus gland, human amniotic fluid.

Purac fcc is most commonly used for fluid resuscitation after blood loss due to trauma, surgery, or burn injury. 
Purac fcc is used in the agricultural, chemical, leather processing, pharmaceuticals, and cosmetics industries, used as an electroplating agent, food/feed additive, pH regulator, cleaning/washing agent, and tanning agent; used to flavor animal feeds; used as a solvent and intermediate in chemical production, as a pH regulator in fabric finishing, and in paints, coatings, soaps, and cleaning products; used to make large scale and fine chemicals, pulp-paper-paper products, food products, and plastic products, in mining, health services, agriculture-forestry-fishing, and building and construction work.

Purac fcc has been used: as a component in substrate solution II for lactate dehydrogenase reaction as an additive in storage solution A as a supplement in the artificial gastric juice preparation for evaluation of degree of resistance Lactobacillus to the gastric stresses.
Purac fcc is used as an acidulant and pH regulator in the food and beverage industry. 
Purac fcc contributes to the tangy taste in various products.

Purac fcc and its derivatives are used in pharmaceutical formulations for their acidifying and chelating properties.
Purac fcc is used in skincare products as an exfoliating agent and in chemical peels to promote skin renewal.
Purac fcc can be found in hair care products for its pH-balancing properties.

Purac fcc is a precursor to polylactic acid (PLA), a biodegradable polymer used in bioplastics and packaging.
Purac fcc is produced during the fermentation of dairy products like yogurt, contributing to their taste and texture.
Purac fcc is used in cleaning products for its descaling properties, particularly in removing mineral deposits.

Purac fcc is used for dehairing and deliming in leather processing.
Purac fcc is used in textile processing, acting as a mordant in dyeing and finishing.
Purac fcc can be used in wastewater treatment processes to enhance biological treatment.

Purac fcc is used in some teeth-whitening products for its mild acidic properties.
Purac fcc is used for treating metal surfaces, particularly aluminum, to improve adhesion properties before coating processes.
Purac fcc and its derivatives may be used in the oil and gas industry for acidizing to enhance well productivity.

Purac fcc fermentation is studied and applied in biochemical engineering for the production of lactic acid and its derivatives on a larger scale.
Purac fcc and its derivatives are investigated for various biomedical applications, including drug delivery systems.
Purac fcc is sometimes used for cleaning and pickling metals.

Purac fcc fermentation by certain bacteria can be utilized for the production of hydrogen gas in biohydrogen processes.
Purac fcc is chiral, and its enantiomers are used in chiral synthesis for the production of pharmaceuticals and fine chemicals.
Purac fcc is used in the production of dairy alternatives, contributing to the tangy flavor in plant-based yogurts and cheeses.

Purac fcc supplements, often in the form of salts such as calcium lactate, are used as dietary supplements to provide a source of lactate.
Purac fcc is used in the preservation of biological samples, such as tissues, by acting as a fixative.
Purac fcc can act as a chelating agent, forming complexes with metal ions. 

Purac fcc and its derivatives can be involved in photopolymerization processes, contributing to the formation of polymeric materials.
Purac fcc and its derivatives find applications in the oil and gas industry, where they may be used for tasks such as acidizing to enhance well productivity.
Purac fcc can enhance the absorption of calcium in the digestive system. 

Purac fcc is involved in various biochemical synthesis pathways, contributing to the production of certain biomolecules and compounds.
Certain dermal fillers used in cosmetic procedures may contain Purac fcc. 
These fillers can provide temporary improvements in skin appearance.

In the electroplating industry, Purac fcc is used as a complexing agent in the electroplating solutions for certain metals.
Purac fcc is chiral, and its enantiomers are used in chiral synthesis for the production of pharmaceuticals and fine chemicals.
Purac fcc fermentation by certain bacteria can be utilized for the production of hydrogen gas in biohydrogen processes.

Purac fcc can be used to enhance the bioavailability of certain drugs, improving their absorption in the body.
Purac fcc is used in research settings for various applications, including cell culture and studies related to metabolism and physiology.
Purac fcc supplements, often in the form of salts such as calcium lactate, are used as dietary supplements to provide a source of lactate.

Purac fcc is a key building block for the production of polylactic acid (PLA), a biodegradable and compostable polymer used in various applications, including packaging, disposable cutlery, and more.
Purac fcc is utilized in textile printing processes, where it can be involved in fixing dyes to fabrics, enhancing color fastness.
Purac fcc and its derivatives can act as inhibitors against microbial-induced corrosion in certain industrial systems in the oil and gas industry.

Purac fcc fermentation is employed in the production of enzymes.
Purac fcc bacteria are sometimes used to produce enzymes for various industrial applications.
Purac fcc has been historically used in the photographic industry for developing photos, particularly in certain photographic processes.

Purac fcc is sometimes used in the preservation and processing of fruits and vegetables. 
It can contribute to maintaining product quality.
Purac fcc fermentation by microorganisms is explored in environmental biotechnology for its potential role in waste treatment processes.

Purac fcc is used for treating metal surfaces, particularly aluminum, to improve adhesion properties before coating processes.
Purac fcc is involved in various biochemical synthesis pathways, contributing to the production of certain biomolecules and compounds.
Purac fcc fermentation by certain bacteria can be utilized for the production of hydrogen gas in biohydrogen processes.

Purac fcc is chiral, and its enantiomers are used in chiral synthesis for the production of pharmaceuticals and fine chemicals.
Purac fcc is used as a flavor enhancer in various food products, contributing to a tangy or sour taste.
Purac fcc and its derivatives are investigated for various biomedical applications, including drug delivery systems with controlled release.

Purac fcc is used in biological and medical research for cell culture applications.
Purac fcc is sometimes used for cleaning and pickling metals, providing a mild and effective alternative.

Safety Profile Of Purac fcc:
Concentrated Purac fcc can be irritating to the skin and eyes. 
Direct contact with the skin or eyes may cause irritation, redness, or discomfort. 
Protective equipment such as gloves and safety goggles are recommended when handling concentrated Purac fcc.

Inhalation of vapors or mists of concentrated Purac fcc may irritate the respiratory system. 
Adequate ventilation and, if necessary, respiratory protection should be used in areas where concentrated Purac fcc is handled.
Purac fcc can cause irritation to the digestive tract. 

Purac fcc is essential to follow safety guidelines and avoid ingestion. 
Purac fcc is generally recognized as safe (GRAS) when used in food and beverages at approved concentrations.
Purac fcc can exhibit corrosive properties, especially toward certain metals. 

Purac fcc is important to use appropriate materials of construction in equipment that comes into contact with concentrated lactic acid.
Some individuals may be sensitive or allergic to Purac fcc. 

Skin sensitization can occur in certain cases, leading to an allergic reaction upon contact. 
Purac fcc's important to be aware of individual sensitivities and take appropriate precautions.

Synonyms Of Purac fcc:
L-Lactic acid
79-33-4
L-(+)-Lactic acid
(S)-Lactic acid
(S)-2-Hydroxypropanoic acid
Sarcolactic acid
(2S)-2-hydroxypropanoic acid
(+)-Lactic acid
(S)-2-Hydroxypropionic acid
Paralactic acid
(S)-(+)-Lactic acid
Tisulac
Lactic acid, L-
L(+)-LACTIC ACID
PURAC
Paramilchsaeure
Fleischmilchsaeure
(S)-Milchsaeure
(S)-lactate
Acidum sarcolacticum
Sarcolacticum acidum
L-lactate
Propanoic acid, 2-hydroxy-, (2S)-
Pleo sanvis
PH 90
(S)-2-Hydroxypropionsaeure
L-(+)-alpha-Hydroxypropionic acid
L-Milchsaeure
UNII-F9S9FFU82N
PROPANOIC ACID, 2-HYDROXY-, (S)-
EINECS 201-196-2
F9S9FFU82N
CHEBI:422
L(+)-2-Hydroxypropionsaeure
BRN 1720251
DEXTROROTATORY LACTIC ACID
EC 201-196-2
4-03-00-00633 (Beilstein Handbook Reference)
l-milchsaure
(+)-Lactate
MFCD00064266
(S)-LACTIC ACID (EP MONOGRAPH)
(S)-LACTIC ACID [EP MONOGRAPH]
2-hydroxy-propionic acid
PLLA
1-Hydroxyethane 1-carboxylic acid
L-lacticacid
Lactisan Winter
Pleo Sanuvis
(alpha)-Lactate
L-Iactic acid
L Lactic Acid
a-Hydroxypropanoate
a-Hydroxypropionate
2OP
ClO2-C Activator
nchembio867-comp9
(alpha)-Lactic acid
alpha-Hydroxypropanoate
alpha-Hydroxypropionate
L-2-Hydroxypropanoate
a-Hydroxypropanoic acid
a-Hydroxypropionic acid
L-(+) Lactic Acid
L-Lactic Acid, 90%
(S)-2-Hydroxypropanoate
(S)-2-Hydroxypropionate
1-Hydroxyethanecarboxylate
L-Lactic acid, anhydrous
L-2-Hydroxypropanoic acid
bmse000208
bmse000818
bmse000979
(S)-2-hydroxy-Propanoate
L-LACTIC ACID [MI]
L-LACTIC ACID (+)
L-LACTIC ACID [JAN]
L-(+)-Lactic acid solution
1-Hydroxyethane 1-carboxylate
LACTIC ACID, L-(II)
(S)-2-hydroxy-Propanoic acid
(S)-2-hydroxy-propionic acid
CHEMBL330546
GTPL2932
L- LACTIC ACID (+)
(S)-(+)-2-Hydroxypropanoate
L-(+)-Lactic acid, 80%
(S)(+)2 hydroxypropionic acid
DTXSID6034689
LACTIC ACID, L- [II]
(s)(+)-2 hydroxypropionic acid
SARCOLACTIC ACID [WHO-DD]
L-(+)-Lactic acid 95% liquid
80% (w/w) Lactic Acid Solution
L-(+)-Lactic acid solution, 1M
L-(+)-Lactic acid, >=98%
SARCOLACTICUM ACIDUM [HPUS]
(S)-(+)-2-Hydroxypropanoic acid
2-Hydroxypropanoic acid, (S)- #
HY-Y0479
s6250
AKOS025146504
DB14475
L-Lactic acid, crystalline, 98.0%+
L-(+)-Lactic acid, analytical standard
CS-0015266
FT-0773848
L0165
EN300-91905
C00186
D71144
L-0990
L-1000
L-(+)-Lactic acid, BioXtra, >=98% (titration)
L-(+)-Lactic acid, Vetec(TM) reagent grade, 86%
Q27080955
5E39D33D-2F71-4C24-BC7A-5E6F27E4CF83
L+Lactic Acid, Free Acid (S)-2-Hydroxypropionic acid, Sarcolactic acid