Titanium borohydride

This was converted to its imine with methylamine catalyzed by titanium tetrachloride and then sodium borohydride reduction produced 17 as a mixture of diastereomers. This was resolved by column chromatography to give sertraline [5]. Dextrorotatory cis sertraline is substantially more potent than its isomers. 

These methods deal with specific cases. The list of examples is not exhaustive. The low-T (200-300°C) decomposition of the transition-metal borohydrides M(BH4> , e.g., leads to titanium, zirconium, halfnium, uranium and thorium borides . Alternatively, the uranium diboride may be obtained by reacting uranium hydride with diborane in hydrogen at 200-400°C. 

MP borohydride catches one equivalent of the titanium catalyst, while the polystyrene-bound diethanolamine resin (PS-DEAM) can scavenge the remaining titanium catalyst. The borohydride reagent also assists in the reductive animation reaction. Final purification of the crude amine product is achieved with a polystyrene-bound toluene sulfonic acid resin scavenger that holds the amine through an ion exchange reaction, while impurities are washed off. The pure amine can be recovered with methanol containing 2M ammonium hydroxide. 

Tertiary amine TV-oxides are rapidly deoxygenated by carbon disulphide1112. Oximes are reduced to primary amines by titanium(III) chloride in the presence of sodium cyanoborohydride, NaBTpCN1. The combined action of sodium borohydride and a chiral... 

Hydrazones treated with alkalis decompose to nitrogen and hydrocarbons [845, 923] Woljf-Kizhner reduction) (p. 34), and p-toluenesulfonylhydra-zones are reduced to hydrocarbons by lithium aluminum hydride [812], sodium borohydride [785] or sodium cyanoborohydride [813]. Titanium trichloride hy-drogenolyzes the nitrogen-nitrogen bond in phenylhydrazones and forms amines and ketimines which are hydrolyzed to the parent ketones. Thus 2,4-dinitrophenylhydrazone of cycloheptanone afforded cycloheptanone in 90% yield [202]. 

As noted earlier, most classical antidepressant agents consist of propylamine derivatives of tricyclic aromatic compounds. The antidepressant molecule tametraline is thus notable in that it is built on a bicyclic nucleus that directly carries the amine substituent. Reaction of 4-phenyl-l-tetralone (18) (obtainable by Friedel-Crafts cyclization of 4,4-diphenyl butyric acid) with methyl amine in the presence of titanium chloride gives the corresponding Schiff base. Reduction by means of sodium borohydride affords the secondary amine as a mixture of cis (21) and trans (20) isomers. The latter is separated to afford the more active antidepressant of the pair, tametraline (20). 

N-OXIDES Diphosphorus tetraiodide. Hexachlorodisilane. Molybdenum V) chloridc-Zinc. Titanium IV) chloridc-Sodium borohydride. e... 

Thus far we have seen that Schiff base ligands tend to promote six-coordination, but an unusual reaction has been found to occur between TiCl2(salen) and borohydride. No reduction at titanium is seen, but rather, addition of BtLr to the imino function of the ligand occurs to give a dimeric seven-coordinate titanium(IV) compound, (24), containing amine-boranes as... 

Reduction of l,2,4-triazin-3-ones (84) with Raney nickel, zinc and acetic acid, lithium aluminum hydride, sodium borohydride, titanium(III) chloride, p-toluenethiol, hydrogen and a palladium catalyst, or electrochemically, produces 4,5-dihydro-l,2,4-triazin-3-ones (268) (78HC(33)189, p. 246, 80JHC1237), which may be further reduced to 1,4,5,6-tetrahydro-l,2,4-triazin-3-ones (269). l,2,4-Triazin-3-ones (84) with hydriodic acid and phosphorus yielded imidazoles (05LA(339)243). 3-Alkoxy-l,2,4-triazines (126) and sodium borohydride gave the 2,5-dihydro derivatives (270) (80JOC4594). 

Oxidation reactions r-Butyl hydroperoxide-Dialkyl tar-trate-Titanium(IV) isopropoxide, 51 m-Chloroperbenzoic acid, 76 Reduction reactions Chlorodiisopinocampheylborane, 72 Diisobutylaluminum hydride-Tin(II) chloride- (S) -1 - [ l-Methyl-2-pyrrolidi-nyljmethylpiperidine, 116 Lithium borohydride, 92 Lithium tri-sec-butylborohydride, 21 B-3-Pinanyl-9-borabicyclo[3.3.1]-nonane, 249... 

Sodium triacetoxyborohydride, 283 Titanium(III) chloride, 302 Tributyltin hydride, 316 Zinc borohydride, 167 of alkenes to alkanes (R)-(-F)- and (S)-(-)-2,2 -Bis(di-phenylphosphine)-l,1 -binaphthyl, 36 [1,4-Bis(diphenylphosphine)-butanej(cycloheptatriene)-rhodium(I) tetrafluoroborate, 89 [ 1,4-Bis(diphenylphosphine)butane]-(norbornadiene)rhodium(I) tetrafluoroborate, 37... 

Fluoromethyl phenyl sulfone, 135 Chlorohydrins Calcium borohydride, 62 Lithium, 157 Sodium nitrite, 282 Titanium(IV) chloride-1,8-Diazabi-cyclo[5.4.0]undecene-7, 309 Iodohydrins... 

Tetrakis(triphenylphosphine)palla-dium(0)-Zinc, 346 Titanium(IV) chloride-Zinc, 310 Titanium(III) chloride-Zinc / copper couple, 303 Zinc, 298, 346, 348 Zinc amalgam, 347 Zinc borohydride, 167 Zinc bromide, 349... 

Lilly has used an Evans auxiliary in its synthesis of LY309887 (32), a dideazafolate antitumor agent (Scheme 23.8).2 The de of the key step, reaction of the titanium-derived enolate, was >98%. It was noted that the auxiliary could be recycled after cleavage with lithium borohydride. 

Further functionality (i.e., 4-oxo) has been introduced by the cyclization of a-allyloxy-carbonylnitrones, which have traditionally been problematic to obtain. Tamura and co-workers have reported that simple alkoxycarbonylnitrones (e.g., (243)) undergo transesterification and cyclization with various allylic alcohols in the presence of titanium isopropoxide (Scheme 43) <95T107, 95T119). Alternatively, allyl a-oximinocarboxylates (246) are converted in situ to nitrones (247) and further cyclized to the bicyclic heterocycles (248) (Scheme 44) <91T4495>. Tetrahydro-1 //-pyrrolo[3,4-c]isoxazoles (250) have been prepared by the condensation of C-acylnitrones with allyl amines <78AJC2013> further reduction of the bicycles (250) with sodium borohydride affords the 3-oxa-2,7-diazabicyclo[3.3.0]octane (251) (Scheme 45). 

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