Synthesis formic acid

Kowalik, J., Kupczyk-Subotkowska, L., and Mastalerz, P., Preparation of dialkyl 1-aminoalkylphosphonates by reduction of dialkyl 1-hydroxyiminoal-kanephosphonates with zinc in formic acid, Synthesis, 57, 1981. 

Zhang and coworkers—formic acid synthesis over Ru carbonyl catalyst. 

The turnover frequency (TOF = mole of product per mole of catalyst per hour) of this rapid reaction is rather high, with values up to 1400. This reaction, carried out at 50 °C in SC-CO2, is 18 times faster than in conventional tetrahydrofuran under otherwise identical reaction conditions. This formic acid synthesis can be coupled with subsequent reactions by addition of methanol or dimethylamine, this supercritical reaction system provides a highly efficient one-pot route to methyl formate and A,A-dimethylforma-mide, respectively [918]. Another example of a reaction in which carbon dioxide acts as both reactant and reaction medium is the formation of tetraethyl-2-pyranone from hex-3-yne and CO2 in the presence of an Ni(II)-diphosphane catalyst at 102 °C under supercritical reaction conditions [919]. 

CARBOXYLIC ACID SYNTHESIS 4.1, Formic acid synthesis... 

Furthermore, methanol is the raw material for formic acid synthesis by the carbonylation route, leading to methyl formate (HCOOCH3), which is hydrolyzed while formic acid is separated by a combination of extraction and distillation steps... 

R.P. Hockendorf, C.K. Siu, C. van der Linde, O.P. Balaj and M.K. Beyer, Selective formic acid synthesis from nanoscale electrochemistry, Angew. Chem. Int. Ed. 49,... 

Alkynes undergo stoichiometric oxidative reactions with Pd(II). A useful reaction is oxidative carboiiyiation. Two types of the oxidative carbonyla-tion of alkynes are known. The first is a synthesis of the alkynic carbox-ylates 524 by oxidative carbonylation of terminal alkynes using PdCN and CuCh in the presence of a base[469], Dropwise addition of alkynes is recommended as a preparative-scale procedure of this reation in order to minimize the oxidative dimerization of alkynes as a competitive reaction[470]. Also efficient carbonylation of terminal alkynes using PdCU, CuCI and LiCi under CO-O2 (1 I) was reported[471]. The reaction has been applied to the synthesis of the carbapenem intermediate 525[472], The steroidal acetylenic ester 526 formed by this reaction undergoes the hydroarylalion of the triple bond (see Chapter 4, Section 1) with aryl iodide and formic acid to give the lactone 527(473],... 

Hydroxylysine (328) was synthesized by chemoselective reaction of (Z)-4-acet-oxy-2-butenyl methyl carbonate (325) with two different nucleophiles first with At,(9-Boc-protected hydroxylamine (326) under neutral conditions and then with methyl (diphenylmethyleneamino)acetate (327) in the presence of BSA[202]. The primary allylic amine 331 is prepared by the highly selective monoallylation of 4,4 -dimethoxybenzhydrylamine (329). Deprotection of the allylated secondary amine 330 with 80% formic acid affords the primary ally-lamine 331. The reaction was applied to the total synthesis of gabaculine 332(203]. 

The protected nucleoside-3-phosphoramidite monomer units such as 671 are used in the solid-phase oligonucleotide synthesis. In the 60mer synthesis, 104 allylic protective groups are removed in almost 100% overall yield by the single Pd-catalyze reaction with formic acid and BuNH2[432], N,(9-protection of uridine derivatives was carried out under pha.se-transfer conditions[433]. 

Addition of a hydroxy group to alkynes to form enol ethers is possible with Pd(II). Enol ether formation and its hydrolysis mean the hydration of alkynes to ketones. The 5-hydroxyalkyne 249 was converted into the cyclic enol ether 250[124], Stereoselective enol ether formation was applied to the synthesis of prostacyclin[131]. Treatment of the 4-alkynol 251 with a stoichiometric amount of PdCl2, followed by hydrogenolysis with formic acid, gives the cyclic enol ether 253. Alkoxypalladation to give 252 is trans addition, because the Z E ratio of the alkene 253 was 33 1. 

Formic acid is used as an intermediate in the production of a number of dmgs, dyes, flavors, and perfume components. It is used, for example, in the synthesis of aspartame and in the manufacture of formate esters for flavor and fragrance appHcations. 

Aldehyde Synthesis. Formylation would be expected to take place when formyl chloride or formic anhydride reacts with an aromatic compound ia the presence of aluminum chloride or other Friedel-Crafts catalysts. However, the acid chloride and anhydride of formic acid are both too unstable to be of preparative iaterest. 

The synthesis of phenoxaphosphine-containing PODs by the cyclodehydration of polyhydra2ides obtained from 2,8-dichloroformyl-lO-phenylphenoxaphosphine-lO-oxide and aUphatic and aromatic dihydra2ides has been described (60). All polymers are soluble in formic acid, y -cresol, and cone H2SO4, but insoluble or partially soluble in ben2ene, chloroform, and hexamethylphosphoric triamide. 

An enzyme-catalyzed appHcation has been used to prepare the enantiomers of hydroxy-substituted tetrahydroisoquinolines (160). The synthesis of ( V)-reticuline [485-19-8] (30) has been reported using similar methodology (161). The substitution of formic acid and paraformaldehyde in this method leads to lower reaction temperatures, freedom from hydrolysis of protective groups, and improved yields (162). 

The only other synthesis of a benzo fused derivative involves the pyridazino[4,3-cjisoquinoline series, the isoquinoline derivative (377) reacting with hydrazine to give (378) (74YZ607), although an s-triazolo-fused pyrido[2,3-tf Ipyridazine was obtained in the reaction of l-amino-3-iminoisoindolenine with hydrazine and formic acid (56GEP951993). 

The important synthesis of pyrazoles and pyrazolines from aldazines and ketazines belongs to this subsection. Formic acid has often been used to carry out the cyclization (66AHQ6)347) and N-formyl-A -pyrazolines are obtained. The proposed mechanism (70BSF4119) involves the electrocyclic ring closure of the intermediate (587) to the pyrazoline (588 R = H) which subsequently partially isomerizes to the more stable trans isomer (589 R = H) (Section 4.04.2.2.2(vi)). Both isomers are formylated in the final step (R = CHO). 

The Leuckart synthesis has been applied successfully in the thiophene series, iV,A -Dimethyl thenylamine and A, A -diethyl thenylamine were obtained from 2-thiophenealdehyde and the appropriate for-mamide. Seven -(2-thienyl)- -arylethylamine hydrochlorides have been prepared from the corresponding ketones in about 40-60% yields and, finally, A -methyl-1-(3-thienyl)-2-propylamine was obtained in 48% yield in the Leuckart reaction from 3-thienylace-tone, methylamine, and formic acid. ... 

Substitution of more complex acids for formic acid in the last step of the purine synthesis will afford intermediates substituted on the imidazole carbon atom. Thus, condensation of diaminouracyl, 12, with phenylacetic acid gives the benzylated... 

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