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[ CAS No. 586-70-9 ] {[proInfo.proName]}

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3d Animation Molecule Structure of 586-70-9
Chemical Structure| 586-70-9
Chemical Structure| 586-70-9
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Product Details of [ 586-70-9 ]

CAS No. :586-70-9 MDL No. :MFCD02177111
Formula : C9H13N Boiling Point : -
Linear Structure Formula :- InChI Key :UZDDXUMOXKDXNE-UHFFFAOYSA-N
M.W :135.21 Pubchem ID :577386
Synonyms :

Safety of [ 586-70-9 ]

Signal Word:Danger Class:8
Precautionary Statements:P501-P210-P264-P280-P370+P378-P303+P361+P353-P301+P330+P331-P363-P304+P340+P310-P305+P351+P338+P310-P403+P235-P405 UN#:2735
Hazard Statements:H314-H227 Packing Group:
GHS Pictogram:

Application In Synthesis of [ 586-70-9 ]

* 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 [ 586-70-9 ]

[ 586-70-9 ] Synthesis Path-Downstream   1~9

  • 1
  • (1S,2R)-1-Phenyl-2-[1-p-tolyl-eth-(E)-ylideneamino]-propan-1-ol [ No CAS ]
  • [ 27298-98-2 ]
  • [ 586-70-9 ]
  • 2
  • (1R,2S)-1-Phenyl-2-[1-p-tolyl-eth-(E)-ylideneamino]-propan-1-ol [ No CAS ]
  • [ 27298-98-2 ]
  • [ 586-70-9 ]
  • 4
  • [ 54582-23-9 ]
  • [ 27298-98-2 ]
  • [ 586-70-9 ]
  • 5
  • [ 42070-98-4 ]
  • [ 27298-98-2 ]
  • [ 586-70-9 ]
YieldReaction ConditionsOperation in experiment
With hydrogenchloride; C15H13O4S(1-)*K(1+); C16H15O4S(1-)*K(1+); C16H15O5S(1-)*K(1+); In water; isopropyl alcohol;Resolution of racemate;Product distribution / selectivity; Resolutions Performed with Potassium Chalcon-sulfonates IGeneral Procedure[0061] The sulfonate or mixture of sulfonates (1 mmol) obtained in example 14 was suspended in 1,0 mL 10% HCl. The racemate was added (1 mmol) and 1 mL of iPrOH. The mixture was heated until clear. The salt was removed by filtration under suction and washed with little iPrOH. The salt was analyzed by HPLC to determine the e.e. The results are depicted in the following table. The values in parentheses are after recrystallization. Yields are calculated with respect to the racemate.[0062] Resolution of DL-leucine[0063] with a (1:1:1) mixture of Ia, Ib and Ic; ee=99%; yield=14%.[0064] Resolution of DL-phenylglycine[0065] with a (1:1) mixture of Ia and If; ee=80% (94%); yield 66%[0066] with a (1:1) mixture of Ib and Id; ee=70% (96%); yield (12%)[0067] with a (1:1) mixture of If and Ih; ee=57%[0068] with Ib; ee=24%; yield=46%[0069] Resolution of DL-p-methyl-[alpha]-methylbenzylamine[0070] with a (1:1:1) mixture of Ia, Ib and Ic; ee=60%; yield=30%[0071] with Ib; ee 22%; yield>50%[0072] Resolution of DL-p-hydroxyphenylglycine[0073] with a (1:1) mixture of Ia and If; ee=49%; yield 22%.
With hydrogenchloride; C16H15O5S(1-)*K(1+); In water; isopropyl alcohol;Resolution of racemate;Product distribution / selectivity; Resolutions Performed with Potassium Chalcon-sulfonates IGeneral Procedure[0061] The sulfonate or mixture of sulfonates (1 mmol) obtained in example 14 was suspended in 1,0 mL 10% HCl. The racemate was added (1 mmol) and 1 mL of iPrOH. The mixture was heated until clear. The salt was removed by filtration under suction and washed with little iPrOH. The salt was analyzed by HPLC to determine the e.e. The results are depicted in the following table. The values in parentheses are after recrystallization. Yields are calculated with respect to the racemate.[0062] Resolution of DL-leucine[0063] with a (1:1:1) mixture of Ia, Ib and Ic; ee=99%; yield=14%.[0064] Resolution of DL-phenylglycine[0065] with a (1:1) mixture of Ia and If; ee=80% (94%); yield 66%[0066] with a (1:1) mixture of Ib and Id; ee=70% (96%); yield (12%)[0067] with a (1:1) mixture of If and Ih; ee=57%[0068] with Ib; ee=24%; yield=46%[0069] Resolution of DL-p-methyl-[alpha]-methylbenzylamine[0070] with a (1:1:1) mixture of Ia, Ib and Ic; ee=60%; yield=30%[0071] with Ib; ee 22%; yield>50%[0072] Resolution of DL-p-hydroxyphenylglycine[0073] with a (1:1) mixture of Ia and If; ee=49%; yield 22%.
With chiral stationary phase including isopropyl-functionalized CF6; In methanol; acetic acid; triethylamine; acetonitrile; at 0℃;Purification / work up; In addition to the foregoing, numerous other chromatographic separations using a column bonded with a CSP including a derivatized cyclofructan residue were carried out. Tables 5-9 list some additional examples of chromatographic separations using a column bonded with a CSP of the present invention. AU examples of chromatographic separations using columns bonded with CSPs of the present invention were carried out using the following experimental conditions and procedures.|0132| The high performance liquid chromatography (HPLC) column packing system was composed of an air driven fluid pump (HASKEL, DSTV- 122), an air compressor, a pressure regulator, a low pressure gauge, two high-pressure gauges (10,000 and 6,000 psi), a slurry chamber, check valves, and tubings. The CSPs were slurry packed into a 25 cm x 0.46 cm (inner diameter, I. D.) stainless steel column.|0133| The HPLC system was an Agilent 1 100 system (Agilent Technologies, Palo Alto,CA), which consisted of a diode array detector, an autosampler, a binary pump, a temperature- controlled column chamber, and Chemstation software. All chiral analytes were dissolved in ethanol, methanol, or other appropriate mobile phases, as indicated. For the LC analysis, the injection volume and flow rate were 5 muL and 1 mL/min, respectively. Separations were carried out at room temperature (~20 0C) if not specified otherwise. The wavelengths of UV detection were 195, 200, 210, and 254 nm. The mobile phase was degassed by ultrasonication under vacuum for 5 min. Each sample was analyzed in duplicate. Three operation modes (the normal phase mode, polar organic mode, and reversed phase mode) were tested, unless indicated otherwise. In the normal phase mode, heptane with ethanol or isopropanol was used as the mobile phase. In some cases, trifluoroacetic acid (TFA) was used as an additive, as indicated. The mobile phase of the polar organic mode was composed of acetonitrile/methanol and small amounts of acetic acid and triethylamine. Water/acetonitrile or acetonitrile/acetate buffer (20 mM, pH = 4.1 ) was used as the mobile phase in the reversed-phase mode.|0134| Two different supercritical fluid chromatographic instruments were used. One was a Berger SFC unit with an FCM 1200 flow control module, a TCM 2100 thermal column module, a dual pump control module, and a column selection valve. The flow rate was 4 mL/min. The cosolvent was composed of methanol/ethanol/isopropanol = 1 : 1 : 1 and 0.2% diethylamine (DEA). The gradient mobile phase composition was 5% cosolvent hold during 0- 0.6 min, 5-60% during 0.6-4.3 min, 60% hold during 4.3-6.3 min, 60%-5% during 6.3-6.9 min, and 5% hold during 6.9-8.0 min. The other SFC system was a Jasco (MD, USA) system comprised of an autosampler unit (AS-2059-SF Plus), a dual pump module (PU-2086 Plus), a column thermostat module (CO-2060 Plus), a UV/Vis detector (UV-2075 Plus), and a back pressure regulator module (SCH-Vch-BP). Unless otherwise specified, the mobile phase was composed of CCVmethanol (0.1 % TFA or 0.1% diethylamine). The flow rate was 3 mL/min.|0135| For the calculations of chromatographic data, the "dead time" to was determined by the peak of the refractive index change due to the sample solvent or determined by injecting l ,3,5-tri-/e/-/-butylbenzene in the normal phase mode.
  • 6
  • [ 27298-98-2 ]
  • [ 100-41-4 ]
  • [ 586-70-9 ]
  • 8
  • [ 42070-98-4 ]
  • [ 815-57-6 ]
  • [ 27298-98-2 ]
  • (R,Z)-3-methyl-4-((1-(p-tolyl)ethyl)amino)pent-3-en-2-one [ No CAS ]
  • (S,Z)-3-methyl-4-((1-(p-tolyl)ethyl)amino)pent-3-en-2-one [ No CAS ]
  • [ 586-70-9 ]
  • 9
  • [ 28292-43-5 ]
  • [ 815-57-6 ]
  • [ 27298-98-2 ]
  • (R,Z)-3-methyl-4-((5-methylhexan-2-yl)amino)pent-3-en-2-one [ No CAS ]
  • [ 586-70-9 ]
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