(1-benzyl-5-methoxy-2-methyl-1h-indol-3-yl)acetic acid (CAS 59283-35-1)

(1-benzyl-5-methoxy-2-methyl-1h-indol-3-yl)acetic acid (CAS: 59283-35-1) has molecular formula C19H19NO3 and molecular weight 309.4 g/mol. This compound has been the subject of numerous scientific investigations due to its structural features and practical utility in synthetic chemistry and industrial processes. View product details →

Product Background

This comprehensive research profile examines the scientific literature surrounding (1-benzyl-5-methoxy-2-methyl-1h-indol-3-yl)acetic acid.

Key Research Findings

Theoretical calculations reveal that the S sites on {102} crystal facets of ZnIn2S4 exhibit thermodynamic and kinetic preferences for acetic acid formation.

Detailed Literature Analysis

Below are the top-ranked research papers for (1-benzyl-5-methoxy-2-methyl-1h-indol-3-yl)acetic acid, presented with bibliographic details and scientific abstracts.

Synthetic Chemistry

1. The genealogical tree of ethanol: gas-phase formation of glycolaldehyde, acetic acid and formic acid

Dimitrios Skouteris, Nadia Balucani, Cecilia Ceccarelli, Fanny Vazart, Cristina Puzzarini; arXiv preprint

Despite the harsh conditions of the interstellar medium, chemistry thrives in it, especially in star forming regions where several interstellar complex organic molecules (iCOMs) have been detected. Yet, how these species are synthesised is a mystery. The majority of current models claim that this happens on interstellar grain surfaces. Nevertheless

2. Spin-polarized chiral ZnIn2S4 for targeted solar-driven CO2 reduction to acetic acid

Yongping Cui, Yuanbo Li, Zhi-qiang Wang, Xueliang Zhang, Lu Han; arXiv preprint

Acetic acid, an important industrial chemical, is a key target product for CO2 reduction due to its dual role in carbon utilization and chemical feedstock supply. Although photocatalytic CO2 reduction (PCCR) can generate acetic acid alongside other multicarbon products, its yield is typically low, limited by competing reactions and inefficient C-C

Biological & Pharmacological Studies

3. A Stereospecific Lactic Acid Exclusion Biosensor for Grass Silage Fed Green Biorefinery.

van Roosmalen RN, Murphy CD, Sweeney JB; Microbial biotechnology

Grass silage fed green biorefineries require high quality grass silage leachates to produce high quality products. Real-time, cost-effective methods to monitor key leachate analytes are needed for small-scale decentralised systems. In this study, Escherichia coli mutants, designated JSP0090 and JSP0094, were created to quantify d- and l-lactic acid

4. A Global Nucleic Acid Observatory for Biodefense and Planetary Health

The Nucleic Acid Observatory Consortium; arXiv preprint

The spread of pandemic viruses and invasive species can be catastrophic for human societies and natural ecosystems. SARS-CoV-2 demonstrated that the speed of our response is critical, as each day of delay permitted exponential growth and dispersion of the virus. Here we propose a global Nucleic Acid Observatory (NAO) to monitor the relative frequen

5. Large prebiotic molecules in space: photo-physics of acetic acid and its isomers

Fabrizio Puletti, Giuliano Malloci, Giacomo Mulas, Cesare Cecchi-Pestellini; arXiv preprint

An increasing number of large molecules have been positively identified in space. Many of these molecules are of biological interest and thus provide insight into prebiotic organic chemistry in the protoplanetary nebula. Among these molecules, acetic acid is of particular importance due to its structural proximity to glycine, the simplest amino aci

Other Research

6. UV-photoprocessing of acetic acid (CH3COOH)-bearing interstellar ice analogs

C. del Burgo Olivares, H. Carrascosa, B. Escribano, G. M. Muñoz Caro, R. Martín-Doménech; arXiv preprint

Acetic acid (CH3COOH) was detected in the gas toward interstellar clouds, hot cores, protostars and comets. Its formation in ice mantles was proposed and acetic acid awaits detection in the infrared spectra of the ice as most other COMs except methanol. The thermal annealing and UV-irradiation of acetic acid in the ice was simulated experimentally

7. Formation of gaseous protein ions from aqueous ammonium acetate droplets during native electrospray: insights from mobile-proton molecular dynamics simulations.

Hanifi K, Konermann L; Physical chemistry chemical physics : PCCP

The transition of proteins from solution into the gas phase during native electrospray ionization (ESI) continues to be an enigmatic topic. Molecular dynamics (MD) simulations are an important avenue for gaining mechanistic insights, but most previous MD studies did not consider the role of proton transfer (PT) events. Here, we overcome this limita

8. Indonesian Midwives' Readiness to Upscale the Secondary Prevention of Cervical Cancer within Primary Health Clinics: A Qualitative Study of Midwives Across Three Provinces.

Wilopo SA, Harisaputra RK, Hadati RS, Mustikaningtyas M, Setyawan A; Asian Pacific journal of cancer prevention : APJCP

This article analyzes the readiness of Indonesian midwives for the rapid scale-up of secondary prevention of cervical cancer, in line with Indonesia's National Plan for Cervical Cancer Elimination (2023-2030).

Conclusion

The research literature on (1-benzyl-5-methoxy-2-methyl-1h-indol-3-yl)acetic acid demonstrates sustained scientific interest, with publications continuing through 0. The compound serves as an important building block in synthetic chemistry and has been explored for various applications. Researchers and industrial users can view detailed specifications or submit an inquiry for pricing and availability.

Data Sources: PubMed/MEDLINE, CrossRef. 8 papers analyzed. Last updated: 2026-05-25. This article is automatically generated from peer-reviewed research data.