# 2‑Lithiomethylindoles: Untapped Anions for the Synthesis of 2‑Functionalized Indoles

**Authors:** Sara Gómez-Gil, Marta Solas, Samuel Suárez-Pantiga, Roberto Sanz

PMC · DOI: 10.1021/acs.joc.5c02679 · 2026-02-23

## TL;DR

This paper introduces a new method for making 2-functionalized indoles using 2-lithiomethylindoles, which are efficient and versatile in synthesizing a wide range of indole derivatives.

## Contribution

The study presents a novel and general protocol for the synthesis of 2-functionalized indoles using 2-lithiomethylindoles as untapped anions.

## Key findings

- The use of nBuLi at room temperature provides optimal conditions for α-lithiation of 1,2-dimethylindoles.
- The method allows for the synthesis of a broad range of C2-functionalized indoles with good yields.
- Deep eutectic solvents enable the reactions under air- and moisture-tolerant conditions, making the process greener and simpler.

## Abstract

Optimal conditions for the metalation via α-lithiation
of
1,2-dimethylindoles were established with nBuLi at
room temperature, providing the most effective protocol. The resulting
organolithium reagents bearing the structure of 2-lithiomethylindole
were efficiently trapped with diverse electrophiles, including Weinreb
amides, ketones, alkyl bromides, and epoxides, affording a broad range
of C2-functionalized indoles in good yields. The methodology proved
general and was successfully applied to 2-methylindoles bearing different
substituents at the benzenoid ring, C3, and on the nitrogen atom,
as well as to 2-benzylindoles, giving access to new functionalized
indole derivatives. Importantly, deep eutectic solvents enabled these
transformations under air- and moisture-tolerant conditions, highlighting
their greener and operationally simple character. The synthetic utility
of the method was further demonstrated through subsequent derivatizations,
exemplified by the two-step preparation of 2,4-disubstituted carbazoles.

## Linked entities

- **Chemicals:** nBuLi (PubChem CID 61028)

## Full-text entities

- **Chemicals:** -w. (MESH:D014414), THF (MESH:C018674), (S)-propylene oxide (MESH:C009068), g-D (MESH:D005682), NaH (MESH:C025451), Indole (MESH:C030374), alkyne (MESH:D000480), alcohol (MESH:D000438), epoxide (MESH:D004852), H (MESH:D006859), Sodium hydride (MESH:C524957), hexane (MESH:D006586), nitriles (MESH:D009570), dimethyl disulfide (MESH:C021181), Gly (MESH:D005990), imines (MESH:D007097), disulfides (MESH:D004220), butane (MESH:C046888), deuterium (MESH:D003903), 2-Lithiomethyl-1-methylindole (-), benzyl bromide (MESH:C038682), benzyne (MESH:C524146), 2-Methylindoles (MESH:C022958), TFA (MESH:D014269), dicyclopropyl ketone (MESH:C010710), ZnCl2 (MESH:C016837), urea (MESH:D014508), amino acids (MESH:D000596), Carbazoles (MESH:D002227), Li (MESH:D008094), indoles (MESH:D007211), n-BuLi (MESH:C434823), E (MESH:D004540), amides (MESH:D000577), Pd (MESH:D010165), water (MESH:D014867), La (MESH:D007811), fluorine (MESH:D005461), benzyl ethers (MESH:C076624), 2,3-dimethylindoles (MESH:C030373), aldehyde (MESH:D000447), Cu (MESH:D003300), TBAF (MESH:C009405), 4-chlorobenzaldehyde (MESH:C052044), Br (MESH:D001966), bromides (MESH:D001965), gold (MESH:D006046), esters (MESH:D004952), azoles (MESH:D001393), ketone (MESH:D007659), carbazole (MESH:C041514), cyclohexanone (MESH:C036468), N-methylindole (MESH:C022957), ChCl (MESH:D002794), 2-MeTHF (MESH:C550584), acetophenone (MESH:C038699), cyclohexene oxide (MESH:C007193), Iodomethane (MESH:C014055), benzaldehyde (MESH:C032175), carboxylic acids (MESH:D002264)

## Figures

12 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12973304/full.md

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Source: https://tomesphere.com/paper/PMC12973304