[ CAS No. 30414-53-0 ] {[proInfo.proName]}

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2D 3D

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Quality Control of [ 30414-53-0 ]

COA NMR CNMR HPLC LC-MS

Related Doc. of [ 30414-53-0 ]

SDS Specification

Alternatived Products of [ 30414-53-0 ]

Product Details of [ 30414-53-0 ]

CAS No. :	30414-53-0	MDL No. :	MFCD00011705
Formula :	C₆H₁₀O₃	Boiling Point :	No data available
Linear Structure Formula :	CH₃OOCCH₂COCH₂CH₃	InChI Key :	XJMIXEAZMCTAGH-UHFFFAOYSA-N
M.W :	130.14	Pubchem ID :	121699
Synonyms :		Chemical Name :	Methyl 3-oxovalerate

Calculated chemistry of [ 30414-53-0 ] Expand+

Physicochemical Properties

Num. heavy atoms :	9
Num. arom. heavy atoms :	0
Fraction Csp3 :	0.67
Num. rotatable bonds :	4
Num. H-bond acceptors :	3.0
Num. H-bond donors :	0.0
Molar Refractivity :	32.44
TPSA :	43.37 ?2

Pharmacokinetics

GI absorption :	High
BBB permeant :	Yes
P-gp substrate :	No
CYP1A2 inhibitor :	No
CYP2C19 inhibitor :	No
CYP2C9 inhibitor :	No
CYP2D6 inhibitor :	No
CYP3A4 inhibitor :	No
Log Kp (skin permeation) :	-6.78 cm/s

Lipophilicity

Log Po/w (iLOGP) :	1.55
Log Po/w (XLOGP3) :	0.44
Log Po/w (WLOGP) :	0.53
Log Po/w (MLOGP) :	0.28
Log Po/w (SILICOS-IT) :	0.73
Consensus Log Po/w :	0.71

Druglikeness

Lipinski :	0.0
Ghose :	None
Veber :	0.0
Egan :	0.0
Muegge :	1.0
Bioavailability Score :	0.55

Water Solubility

Log S (ESOL) :	-0.66
Solubility :	28.5 mg/ml ; 0.219 mol/l
Class :	Very soluble
Log S (Ali) :	-0.92
Solubility :	15.7 mg/ml ; 0.121 mol/l
Class :	Very soluble
Log S (SILICOS-IT) :	-1.06
Solubility :	11.2 mg/ml ; 0.0861 mol/l
Class :	Soluble

Medicinal Chemistry

PAINS :	0.0 alert
Brenk :	1.0 alert
Leadlikeness :	1.0
Synthetic accessibility :	1.36

Safety of [ 30414-53-0 ]

Signal Word:	Warning	Class:
Precautionary Statements:	P305+P351+P338	UN#:
Hazard Statements:	H227-H315-H319-H335	Packing Group:
GHS Pictogram:

Application In Synthesis of [ 30414-53-0 ]

* All experimental methods are cited from the reference, please refer to the original source for details. We do not guarantee the accuracy of the content in the reference.

Downstream synthetic route of [ 30414-53-0 ]

[ 30414-53-0 ] Synthesis Path-Downstream 1~4

1
[ 30414-53-0 ]
methyl (3R)-3-hydroxypentanoate [ No CAS ]
[ 42558-50-9 ]

Yield	Reaction Conditions	Operation in experiment
	With hydrogen;dichloro[(R)-N-bis(3,5-dimethylphenyl)phosphino-N-methyl-1-[(S)-2-(diphenylphosphino)ferrocenyl]ethylamine](triphenylphosphine)ruthenium; In methanol; at 20℃; under 16274.9 Torr; for 6h;Conversion of starting material;	Complex 5A-g from Example 9 (2.8 mg; 0.0025 mmol; 0.005 equiv) was placed in a reaction vessel, which was pressurized with argon and vented five times. Argon-degassed methanol (2 mL) was added and the mixture was stirred for 15 minutes. Methyl propionylacetate (63 μL; 0.5 mmol) dissolved in 2 mL of argon-degassed methanol was added and was washed in with 1.0 mL of argon-degassed methanol. The reaction mixture was pressurized with argon and vented five times and then pressurized to 20.7 barg (300 psig) with hydrogen and stirred at ambient temperature for 6 hours. The vessel was vented, then pressurized with argon and vented five times, and the solution was assayed by chiral GC to indicate 100% conversion to methyl (R)-3-hydroxypentanoate with 79.3% ee.

Reference： [1]Tetrahedron Letters,1986,vol. 27,p. 2657 - 2660
[2]Tetrahedron Letters,1989,vol. 30,p. 2245 - 2246
[3]Chemistry Letters,1987,p. 679 - 682
[4]Bulletin of the Chemical Society of Japan,1989,vol. 62,p. 875 - 879
[5]Chemistry Letters,1987,p. 1267 - 1270
[6]Chemistry Letters,1987,p. 679 - 682
[7]Bulletin of the Chemical Society of Japan,1994,vol. 67,p. 2473 - 2477
[8]Bulletin of the Chemical Society of Japan,1983,vol. 56,p. 1414 - 1419
[9]Tetrahedron Letters,1997,vol. 38,p. 6603 - 6606
[10]Tetrahedron Letters,1990,vol. 31,p. 267 - 270
[11]Tetrahedron Letters,1989,vol. 30,p. 2245 - 2246
[12]Chemistry Letters,1987,p. 1267 - 1270
[13]Tetrahedron Letters,1997,vol. 38,p. 6603 - 6606
[14]Chemistry Letters,1998,p. 1257 - 1258
[15]Journal of Organic Chemistry,2000,vol. 65,p. 2586 - 2587
[16]Journal of the American Chemical Society,2001,vol. 123,p. 1547 - 1555
[17]Bulletin of the Chemical Society of Japan,2002,vol. 75,p. 355 - 363
[18]Bulletin of the Chemical Society of Japan,2002,vol. 75,p. 355 - 363
[19]Angewandte Chemie - International Edition,2004,vol. 43,p. 5066 - 5069
[20]Advanced Synthesis and Catalysis,2005,vol. 347,p. 1978 - 1986
[21]Advanced Synthesis and Catalysis,2006,vol. 348,p. 1157 - 1160
[22]Tetrahedron Letters,2006,vol. 47,p. 4033 - 4035
[23]Tetrahedron Letters,1985,vol. 26,p. 4213 - 4216
[24]Advanced Synthesis and Catalysis,2003,vol. 345,p. 160 - 164
[25]Patent: US6939981,2005,B1 .Location in patent: Page/Page column 16-17
[26]Advanced Synthesis and Catalysis,2009,vol. 351,p. 725 - 732
[27]Advanced Synthesis and Catalysis,2013,vol. 355,p. 209 - 219
[28]Advanced Synthesis and Catalysis,2013,vol. 355,p. 209 - 219
[29]European Journal of Inorganic Chemistry,2017,vol. 2017,p. 2762 - 2773

2
[ 30414-53-0 ]
[ 42558-50-9 ]

Yield	Reaction Conditions	Operation in experiment
	With hydrogen;dichloro[(S)-N-diphenylphosphino-N-methyl-1-[(R)-2-(diphenylphosphino)ferrocenyl]ethylamine](triphenylphosphine)ruthenium; In methanol; at 20℃; under 16274.9 Torr; for 6h;Conversion of starting material;	Complex 5B-a from Example 1 (2.6 mg; 0.0025 mmol; 0.005 equiv) was placed in a reaction vessel, which was pressurized with argon and vented five times. Argon-degassed methanol (2 mL) was added and the mixture was stirred for 15 minutes. Methyl propionylacetate (63 μL; 0.5 mmol) dissolved in 2 mL of argon-degassed methanol was added and was washed in with 1.0 mL of argon-degassed methanol. The reaction mixture was pressurized with argon and vented five times and then pressurized to 20.7 barg (300 psig) with hydrogen and stirred at ambient temperature for 6 hours. The vessel was vented, then pressurized with argon and vented five times, and the solution was assayed by chiral GC to indicate 100% conversion to methyl (S)-3-hydroxypentanoate with 86.2% ee. Chiral GC [30 m×0.25 mm Cyclosil-B (J&W Scientific), 0.25 μm film thickness, 70 C. isothermal]: tR=9.72 min (methyl propionylacetate), tR=10.34 min [methyl (S)-3-hydroxypentanoate], tR=10.80 min [methyl (R)-3-hydroxypentanoate].
	With hydrogen;dichloro(benzene)ruthenium(II) dimer; (11bS,11'bS)-4,4'-(9,9-dimethyl-9H-xanthene-4,5-diyl)-bis-dinaphtha[2,1-d:1',2'-f][1,3,2]dioxaphosphepin; In ethanol; dichloromethane; at 60℃; under 45004.5 Torr; for 20h;Product distribution / selectivity;	[Ru(benzene)Cl2]2 (N) (16 mg, 0.032 mmol) and a diphosphonite (0.067 mmol) were introduced into a 25 ml Schlenk tube. The tube was purged three times with argon before dry dimethylformamide (DMF) (3 ml) was added. The resulting mixture was heated to 100 C. for 30 minutes and then cooled to 60 C. The solvent was removed under reduced pressure, and the catalyst was obtained as a pale green-yellow solid. This catalyst was dissolved in dry dichloromethane (8 ml) and distributed uniformly between 8 vials (in each case 1 ml), which had already been purged three times with argon. A ketone, such as a β-keto ester (III) (0.8 mmol), was introduced into each vessel, then in each case 3 ml of ethanol were added. These were then transferred to a high-pressure autoclave. Once it had been purged three times with H2, the autoclave was adjusted to a pressure 60 bar with H2, and the reactions were stirred magnetically at 60 C. over 20 h. The autoclave was subsequently cooled to room temperature and H2 was cautiously discharged. Samples were taken from each reaction solution and put through a small amount of silica gel before the GC analysis in order to determine the conversions and ee values. The absolute configuration was determined in comparison to known compounds described in the literature.
	With methanesulfonic acid; hydrogen;[RuCl(p-cymene)(VIIa)]Cl; In methanol; at 100℃; under 7500.75 Torr; for 24.3333h;Ultrasonic treatment;Product distribution / selectivity;	A solution of 3.8 ml of methanol and 3 g (23 mmol) of methyl 3-oxopentanoate was treated with [RuCl(p-cymene)(VIIa)]Cl in the manner described in Example 8. This gave 3.03 g of methyl (S)-3-hydroxypentanoate. 99.9% ee (GC); >99% chemical purity.

	With methanesulfonic acid; hydrogen;RuBr2(VIIa); In methanol; at 100℃; under 7500.75 Torr; for 24.3333h;Ultrasonic treatment;Product distribution / selectivity;	A solution of 3.8 ml of methanol and 3 g (23 mmol) of methyl 3-oxopentanoate was treated with 0.0115 mmol of [RuBr2(VIIa)] in the manner described in Example 8. This gave 2.88 g of methyl (S)-3-hydroxypentanoate. 99.5% ee (GC); 95% chemical purity.
	With methanesulfonic acid; hydrogen;[RuCl(benzene)(VIIa)]Cl; In methanol; at 100℃; under 7500.75 Torr; for 24.3333h;Ultrasonic treatment;Product distribution / selectivity;	A solution of 3.8 ml of methanol and 3 g (23 mmol) of methyl 3-oxopentanoate was treated with 0.0115 mmol of [RuCl(benzene)(VIIa)]Cl in the manner described in Example 8. This gave 3.03 g of methyl (S)-3-hydroxy-pentanoate. 99.6 % ee (GC); >99 % chemical purity.
	With dichloro[(S)-(-)-2,2'-bis(diphenylphosphino)-1,1'-binaphthyl]ruthenium(II); hydrogen; In methanol; at 100℃; under 3800.26 Torr; for 48h;	Synthesis of 1-Azido-3-Pentanol (31) (Scheme 14) A solution of methyl-3-oxo-pentanoate (31) (20 g) noyori hydrogenation with RuCl2 [(S)-BINAP] (60 mg), in methanol was added. The flask was charged with hydrogen gas (5 atm) at 100 C. The resulting suspension was vigorously stirred for 48 hours. The reaction mixture was diluted with methanol and the combined organic layers were filtered through a Celite pad. The combined organic phases were evaporated in a rotary evaporator to yield the product (S) isomer of methyl-3-hydroxy-pentanoate (32). The methyl-3-hydroxy-pentanoate (secondary alcohol-32) was protected with TBDMSCl in the presence of imidazole in dichloro methane. The reaction mixture was stirred for 24 hours at room temperature. This reaction was quenched with aqueous saturated sodium bicarbonate and extracted with dichloro methane. The combined organic phases were dried over Na2SO4 and the combined organic phases were evaporated in a rotary evaporator to yield the TBS protected product (33). A stirred solution of ester was reduced with di-isobutyl aluminum hydride in dichloro methane at -78 C. for 5 hours. This reaction mixture was quenched with saturated aqueous sodium potassium tartarate. The combined organic and aqueous layers were filtered and organic layer was separated by separating funnel. The aqueous layer was extracted with dichloro methane. The combined organic phases were dried over Na2SO4 and the combined organic phases were evaporated in a rotary evaporator to yield the product primary alcohol (34) as a pale yellow liquid. The primary alcohol was protected with methane sulfonyl chloride in the presence of TEA in dichloromethane. The reaction mixture was stirred for 4 hours at 0 C. This reaction was quenched with aqueous saturated sodium bicarbonate and extracted with dichloro methane. The combined organic phases were dried over Na2SO4 and the combined organic phases were evaporated in a rotary evaporator to yield the methane sulfonyl protected product (35). The methane sulfonyl protected primary alcohol was stirred at 70 C. with NaN3 in DMF for 16 hours. A stirred solution of TBS protected secondary alcohol. This reaction was quenched with pre cooled ice water and extracted with diethyl ether. The combined organic phases were dried over Na2SO4. The combined organic phases were evaporated in a rotary evaporator to yield the azido product as a colorless liquid (36). This was deprotected with TBAF in tetrahydrofuran at room temperature. This reaction was quenched with saturated ammonium chloride solution and extracted with diethyl ether; the combined organic phases were dried over Na2SO4 and evaporated on rotary evaporator to yield the product 1-azido-3-pentanol (36A) as a colorless liquid.
> 99.5%Chromat.	With hydrogen; In isopropyl alcohol; at 50℃; under 30003 Torr; for 10h;Autoclave; Glovebox;	General procedure: As a typical run for asymmetric hydrogenation of β-keto esters, 0.026 g Ru/5-BINAPPOPs-1 catalyst, 0.20 g methyl acetoacetate, and 2 mL of isopropanol (ipro) were added to a 30-mL autoclave in a glove box. After the reactor was purged with H2 four times, its pressure was finally adjusted to the desired value, heated from room temperature to the reaction temperature of 50 C, and stirred for 10 h. The catalyst was separated by centrifugation, and the product was analysed using gas chromatography (GC; Agilent 7890B gas chromatograph equipped with a flame ionization detector and a Cyclosil-B capillary column).

Reference： [1]Tetrahedron Asymmetry,1991,vol. 2,p. 569 - 592
[2]Tetrahedron Asymmetry,1994,vol. 5,p. 675 - 690
[3]Journal of Organic Chemistry,2004,vol. 69,p. 7577 - 7581
[4]Chemical Communications,2019,vol. 56,p. 157 - 160
[5]European Journal of Organic Chemistry,2014,vol. 2014,p. 323 - 330
[6]European Journal of Organic Chemistry,2014,vol. 2014,p. 323 - 330
[7]Synlett,2011,p. 191 - 194
[8]Journal of the American Chemical Society,1987,vol. 109,p. 5856 - 5858
[9]Tetrahedron Letters,1995,vol. 36,p. 4801 - 4804
[10]Journal of the American Chemical Society,1995,vol. 117,p. 4423 - 4424
[11]Tetrahedron,2001,vol. 57,p. 2563 - 2568
[12]Journal of the American Chemical Society,2001,vol. 123,p. 1547 - 1555
[13]Patent: US6359165,2002,B1 .Location in patent: Page column 13
[14]Patent: US6939981,2005,B1 .Location in patent: Page/Page column 14
[15]Patent: US2008/255355,2008,A1 .Location in patent: Page/Page column 8-9
[16]Patent: US2005/250951,2005,A1 .Location in patent: Page/Page column 12
[17]Patent: US2005/250951,2005,A1 .Location in patent: Page/Page column 13
[18]Patent: US2005/250951,2005,A1 .Location in patent: Page/Page column 12
[19]Advanced Synthesis and Catalysis,2013,vol. 355,p. 209 - 219
[20]Patent: US9250238,2016,B2 .Location in patent: Page/Page column 106; 107; 108
[21]Cuihua Xuebao/Chinese Journal of Catalysis,2017,vol. 38,p. 890 - 897

3
[ 30414-53-0 ]
[ 50405-45-3 ]

Reference： [1]Heterocycles,2000,vol. 53,p. 549 - 552

4
[ 30414-53-0 ]
[ 1903-91-9 ]
[ 911388-92-6 ]

Yield	Reaction Conditions	Operation in experiment
		Preparation of 2-methoxymethyl-4-hydroxy-6-ethylpyrimidine; 116 ml of a 30% strength sodium methoxide solution are diluted with 100 ml of methanol and, with ice-cooling, a solution of 26 g (208.7 mmol) of methoxy-acetamidinium hydrochloride in 200 ml of methanol is added dropwise. After the dropwise addition, the mixture is stirred for 1 h, and a solution of 27.1 g (208.7 mmol) of methyl propionyl acetate in 100 ml of methanol is then added dropwise at RT. The reaction mixture is stirred at RT for 96 h. For work-up, the reaction mixture is concentrated, the residue is taken up in 100 ml of H2O and the aqueous mixture is adjusted to pH 6 using concentrated HCl. The mixture is then concentrated and the residue is taken up in 30 ml of methanol. The solid is filtered off with suction, and concentration of the mother liquor gives 38.5 g of product. 1H-NMR: delta [CDCl3] 1.20 (t, 3H), 2.50 (q, 2H), 3.42 (s, 3H), 4.35 (s, 2H), 6.04 (s, 1H).

Reference： [1]Patent: US2006/223708,2006,A1 .Location in patent: Page/Page column 10

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Technical Information

? Acyl Group Substitution ? Baeyer-Villiger Oxidation ? Barbier Coupling Reaction ? Baylis-Hillman Reaction ? Bouveault-Blanc Reduction ? Bucherer-Bergs Reaction ? Catalytic Hydrogenation ? Clemmensen Reduction ? Complex Metal Hydride Reductions ? Corey-Bakshi-Shibata (CBS) Reduction ? Corey-Chaykovsky Reaction ? Ester Cleavage ? Fischer Indole Synthesis ? Grignard Reaction ? Heat of Combustion ? Henry Nitroaldol Reaction ? Horner-Wadsworth-Emmons Reaction ? Hydride Reductions ? Lawesson's Reagent ? Leuckart-Wallach Reaction ? McMurry Coupling ? Meerwein-Ponndorf-Verley Reduction ? Passerini Reaction ? Paternò-Büchi Reaction ? Petasis Reaction ? Peterson Olefination ? Pictet-Spengler Tetrahydroisoquinoline Synthesis ? Preparation of Aldehydes and Ketones ? Preparation of Amines ? Prins Reaction ? Reactions of Aldehydes and Ketones ? Reactions of Amines ? Reactions with Organometallic Reagents ? Reformatsky Reaction ? Robinson Annulation ? Schlosser Modification of the Wittig Reaction ? Schmidt Reaction ? Specialized Acylation Reagents-Carbodiimides and Related Reagents ? Specialized Acylation Reagents-Ketenes ? Stobbe Condensation ? Tebbe Olefination ? Ugi Reaction ? Wittig Reaction ? Wolff-Kishner Reduction

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P370 + P378	In case of fire:
P370 + P380	In case of fire: Evacuate area.
P370 + P380 + P375	In case of fire: Evacuate area. Fight fire remotely due to the risk of explosion.
P371 + P380 + P375	In case of major fire and large quantities: Evacuate area. Fight fire remotely due to the risk of explosion.
Storage
Code	Phrase
P401
P402	Store in a dry place.
P403	Store in a well-ventilated place.
P404	Store in a closed container.
P405	Store locked up.
P406	Store in corrosive resistant/ container with a resistant inner liner.
P407	Maintain air gap between stacks/pallets.
P410	Protect from sunlight.
P411
P412	Do not expose to temperatures exceeding 50 oC/ 122 oF.
P413
P420	Store away from other materials.
P422
P402 + P404	Store in a dry place. Store in a closed container.
P403 + P233	Store in a well-ventilated place. Keep container tightly closed.
P403 + P235	Store in a well-ventilated place. Keep cool.
P410 + P403	Protect from sunlight. Store in a well-ventilated place.
P410 + P412	Protect from sunlight. Do not expose to temperatures exceeding 50 oC/122oF.
P411 + P235	Keep cool.
Disposal
Code	Phrase
P501	Dispose of contents/container to ...
P502	Refer to manufacturer/supplier for information on recovery/recycling

Physical hazards
Code	Phrase
H200	Unstable explosive
H201	Explosive; mass explosion hazard
H202	Explosive; severe projection hazard
H203	Explosive; fire, blast or projection hazard
H204	Fire or projection hazard
H205	May mass explode in fire
H220	Extremely flammable gas
H221	Flammable gas
H222	Extremely flammable aerosol
H223	Flammable aerosol
H224	Extremely flammable liquid and vapour
H225	Highly flammable liquid and vapour
H226	Flammable liquid and vapour
H227	Combustible liquid
H228	Flammable solid
H229	Pressurized container: may burst if heated
H230	May react explosively even in the absence of air
H231	May react explosively even in the absence of air at elevated pressure and/or temperature
H240	Heating may cause an explosion
H241	Heating may cause a fire or explosion
H242	Heating may cause a fire
H250	Catches fire spontaneously if exposed to air
H251	Self-heating; may catch fire
H252	Self-heating in large quantities; may catch fire
H260	In contact with water releases flammable gases which may ignite spontaneously
H261	In contact with water releases flammable gas
H270	May cause or intensify fire; oxidizer
H271	May cause fire or explosion; strong oxidizer
H272	May intensify fire; oxidizer
H280	Contains gas under pressure; may explode if heated
H281	Contains refrigerated gas; may cause cryogenic burns or injury
H290	May be corrosive to metals
Health hazards
Code	Phrase
H300	Fatal if swallowed
H301	Toxic if swallowed
H302	Harmful if swallowed
H303	May be harmful if swallowed
H304	May be fatal if swallowed and enters airways
H305	May be harmful if swallowed and enters airways
H310	Fatal in contact with skin
H311	Toxic in contact with skin
H312	Harmful in contact with skin
H313	May be harmful in contact with skin
H314	Causes severe skin burns and eye damage
H315	Causes skin irritation
H316	Causes mild skin irritation
H317	May cause an allergic skin reaction
H318	Causes serious eye damage
H319	Causes serious eye irritation
H320	Causes eye irritation
H330	Fatal if inhaled
H331	Toxic if inhaled
H332	Harmful if inhaled
H333	May be harmful if inhaled
H334	May cause allergy or asthma symptoms or breathing difficulties if inhaled
H335	May cause respiratory irritation
H336	May cause drowsiness or dizziness
H340	May cause genetic defects
H341	Suspected of causing genetic defects
H350	May cause cancer
H351	Suspected of causing cancer
H360	May damage fertility or the unborn child
H361	Suspected of damaging fertility or the unborn child
H361d	Suspected of damaging the unborn child
H362	May cause harm to breast-fed children
H370	Causes damage to organs
H371	May cause damage to organs
H372	Causes damage to organs through prolonged or repeated exposure
H373	May cause damage to organs through prolonged or repeated exposure
Environmental hazards
Code	Phrase
H400	Very toxic to aquatic life
H401	Toxic to aquatic life
H402	Harmful to aquatic life
H410	Very toxic to aquatic life with long-lasting effects
H411	Toxic to aquatic life with long-lasting effects
H412	Harmful to aquatic life with long-lasting effects
H413	May cause long-lasting harmful effects to aquatic life
H420	Harms public health and the environment by destroying ozone in the upper atmosphere

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[ CAS No. 30414-53-0 ] {[proInfo.proName]}

Quality Control of [ 30414-53-0 ]

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Product Details of [ 30414-53-0 ]

Calculated chemistry of [ 30414-53-0 ] Expand+

Physicochemical Properties

Pharmacokinetics

Lipophilicity

Druglikeness

Water Solubility

Medicinal Chemistry

Safety of [ 30414-53-0 ]

Application In Synthesis of [ 30414-53-0 ]

[ 30414-53-0 ] Synthesis Path-Downstream 1~4

Technical Information

Related Functional Groups of [ 30414-53-0 ]

Aliphatic Chain Hydrocarbons

Esters

Ketones

Precautionary Statements-General

Prevention

Response

Storage

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Physical hazards

Health hazards

Environmental hazards

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[ 30414-53-0 ]