Kovar, Jan et al. published their research in Chemicke Listy pro Vedu a Prumysl in 1958 | CAS: 40571-86-6

Trans-2-(benzylamino)cyclohexanol (cas: 40571-86-6) belongs to alcohols. Because alcohols are easily synthesized and easily transformed into other compounds, they serve as important intermediates in organic synthesis. A multistep synthesis may use Grignard-like reactions to form an alcohol with the desired carbon structure, followed by reactions to convert the hydroxyl group of the alcohol to the desired functionality.Synthetic Route of C13H19NO

Configuration of nitrogen-containing compounds. VI. Configuration of substituted 2-aminocyclohexanols was written by Kovar, Jan;Blaha, Karel. And the article was included in Chemicke Listy pro Vedu a Prumysl in 1958.Synthetic Route of C13H19NO This article mentions the following:

The rate of solvolysis of N-R-substituted-2-(p-nitrophenyl)-4,5-tetra-methylenoxazolidine (I) obtained by condensing N-R-substituted-2-aminocyclohexanols (II) with p-O2NC6H4CHO was studied in regard to the steric structure of the starting amino alcs. trans-II (R = Me) obtained in 8.5 g. yield by shaking 24 hrs. a mixture of 13.4 g. trans-2-chlorocyclohexanol and 15 ml. solution containing 0.15 mole NH2Me, adding 50 ml. N HCl, extracting undissolved oil with Et2O, alkalizing the aqueous solution with NaOH, extracting with 4:1 CHCl3-Et2O, and evaporating the solvent gave an oily residue, b21 113掳, which crystallized, m. 22-4掳; HCl salt, m. 121掳 (9:1 Me2CO-MeOH). Heating a solution of 4 g. trans-II (R = H) and 3.2 g. PhCH2NH2 in 7 ml. EtOH 8 hrs. to 145-55掳 in a sealed tube, dissolving the crystalline product in 50 ml. H2O, and working up as above gave 2.0 g. trans-II (R = PhCH2) b0.6 125-7掳, m. 73掳 (petr. ether); picrate, m. 134-5掳 (50% EtOH); HCl salt, m. 204-5掳 (Me2CO-EtOH 9:1); trans-N-benzoyl derivative (III) obtained in 77% yield by the usual method gave crystals, m. 116.5-17.5掳 (C6H6-petr. ether). Hydrogenating 27 g. 慰-AcNHC6H4OH over Raney Co in EtOH at 150-60掳 and 100 atm. 12 hrs., filtering off the catalyst, evaporating the solvent in vacuo, and treating the residue with 10 ml. Me2CO gave 5.8 g. crystals of cis-II (R = Ac) (IV), m. 143-4掳. IV (4.7 g.) boiled 2 hrs. with 2.33N HCl and worked up as usual gave 4.3 g. HCl salt of cis-II (R = H), m. 186-6.5掳; free base, m. 73-5掳. cis-II (R = Me) was obtained according to Mousseron, et al. (C.A. 47, 9319a), m. 38-40掳; HCl salt, m. 205-6掳 (1:1 EtOH-Me2CO); picrate, m. 141-2掳 (H2O). cis-II (R = PhCH2) was obtained by heating a solution of III in SOCl2 2.5 hrs. to 60掳, pouring the product into Et2O, and refluxing the undissolved portion 5 hrs. with 10% HCl, or by distilling a solution of 747 mg. cis-II (R = H) and 1.5 g. PhCHO in 25 ml. C6H6 with simultaneous dropwise addition of C6H6, dissolving the residue in Et2O, and boiling 6 hrs. with 1 g. LiAlH4 to give crystalline HCl salt, m. 248-50掳 (1:1 EtOH-Me2CO); free base, m. 67掳 (petr. ether); picrate, m. 157-8掳 (H2O). The following I were obtained by heating slowly to boiling equivalent amounts of II and p-O2NC6H4CHO in PhCl (50 ml. per 10 millimoles with continuous removal of H2O. The products were crystallized from petr. ether or petr. ether-C6H6: cis-I (R = H), m. 73-3.5掳 (yield 93%); cis-I (R = Me), m. 68-9掳 (82%); cis-I (R = PhCH2), m. 59-61掳 (94%); trans-I (R = H), m. 127掳 (65%); trans-I (R = Me), m. 77-8掳 (78%); trans-I (R = PhCH2), m. 97.5-99掳 (50%). Treatment of I with 2,4-(O2N)2C6H3NHNH 2 in EtOH at 24掳 catalyzed with H2SO4 brought about opening of the ring. Its rate was followed by determining gravimetrically the separated 4-O2NC6H4CH:NNHC6H3(NO2)2-2,4. The reaction constants of the cis and trans isomers are, resp.: I (R = H) 9.81 脳 10-3, 4.7 脳 10-2; I (R = Me) 8.12 脳 10-4, 8.0 脳 10-2; I (R = PhCH2) 1.31 脳 10-3, 1 脳 10-1. In the experiment, the researchers used many compounds, for example, Trans-2-(benzylamino)cyclohexanol (cas: 40571-86-6Synthetic Route of C13H19NO).

Trans-2-(benzylamino)cyclohexanol (cas: 40571-86-6) belongs to alcohols. Because alcohols are easily synthesized and easily transformed into other compounds, they serve as important intermediates in organic synthesis. A multistep synthesis may use Grignard-like reactions to form an alcohol with the desired carbon structure, followed by reactions to convert the hydroxyl group of the alcohol to the desired functionality.Synthetic Route of C13H19NO

Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts