Cellulose–Sulfonic Acid: An Efficient, Recyclable, and Biodegradable Solid Acid Catalyst for the Synthesis of 3-Aminoalkylindoles

Abstract: Three-component coupling (3CC) of indoles, aldehydes, and N-alkylanilines has been accomplished using a catalytic amount of cellulose–sulfonic acid under mild reaction conditions to furnish the 3-aminoalkylindoles at room temperature in short reaction times and in relatively good to excellent yields and selectivity. The use of biodegradable cellulose–sulfonic acid makes this method quite simple, convenient, and economically viable for the synthesis of 3-aminoalkylindoles.

“…Thus, is not surprising that also different supported sulfonic acids-based catalysts have been developed in the last years, including Fe 3 O 4 -OSO 3 H nanoparticles 98 and cellulose-based sulfonic acid. 99 The main advantage of the first methodology is indeed the possible catalyst recovery using a magnetic stick. Notably, the use of Fe 3 O 4 nanoparticles or sulfonic acids alone favoured the formation of the bis-indolyl by-product, while the use Fe 3 O 4 -OSO 3 H nanoparticles guaranteed the perfect combination of a Lewis and a Brønsted acid, promoting the formation of the mono-alkylated product.…”

“…On the other hand, the cellulose-based catalyst is biodegradable, stable to air, water, and light and is easily recoverable and reusable up to four times. 99 From the first catalysts screening, cellulose-SO 3 H emerged as the most promising to promote the one-pot, three-component reaction between indoles, N-alkyl anilines and aromatic aldehydes. Other metal-based and metal-free Lewis acids resulted the less efficient.…”

Catalytic C3 aza-alkylation of indoles

“…Thus, is not surprising that also different supported sulfonic acids-based catalysts have been developed in the last years, including Fe 3 O 4 -OSO 3 H nanoparticles 98 and cellulose-based sulfonic acid. 99 The main advantage of the first methodology is indeed the possible catalyst recovery using a magnetic stick. Notably, the use of Fe 3 O 4 nanoparticles or sulfonic acids alone favoured the formation of the bis-indolyl by-product, while the use Fe 3 O 4 -OSO 3 H nanoparticles guaranteed the perfect combination of a Lewis and a Brønsted acid, promoting the formation of the mono-alkylated product.…”

“…On the other hand, the cellulose-based catalyst is biodegradable, stable to air, water, and light and is easily recoverable and reusable up to four times. 99 From the first catalysts screening, cellulose-SO 3 H emerged as the most promising to promote the one-pot, three-component reaction between indoles, N-alkyl anilines and aromatic aldehydes. Other metal-based and metal-free Lewis acids resulted the less efficient.…”

Catalytic C3 aza-alkylation of indoles

“…70 Similarly, for 3-amino alkylated indoles, recent reported methodologies include l -proline, 71 SDS, 72 iron( iii ) phosphate, 73 β-cyclodextrin, 74 PMA–SiO 2 , 75 silver triflate, 76 bromodimethylsulfonium bromide (BDMS), 77 PANI-HBF 4 , 78 ZrOCl 2 ·2H 2 O/CuCl 2 ·3H 2 O, 79 RGO/ZnO, 80 and cellulose sulfonic acid. 81 However, many of these methodologies are accompanied by several drawbacks such as expensive catalysts, usage of hazardous organic solvents, high temperatures, prolonged reaction times, huge organic waste, low product yield, and difficulty in the recovery and reuse of catalysts. In 2014, He et al and Rawat et al reported the catalyst-free synthesis of 3-amino alkylated indoles.…”

Efficient metal-free green syntheses of 4H-chromenes and 3-amino alkylated indoles using a reusable graphite oxide carbocatalyst under aqueous and solvent-free reaction conditions

ChemInform Abstract: Cellulose—Sulfonic Acid: An Efficient, Recyclable, and Biodegradable Solid Acid Catalyst for the Synthesis of 3‐Aminoalkylindoles