Phytochemical screening, thin-layer chromatography and antimicrobial activity study of <i>Parquetina nigrescens</i> leaf extracts

Adoga, Sunday Ogakwu; Ekle, Deborah Ehikowoicho; Kyenge, Barnabas Aloo; Aondo, T. O.; Ikese, Chris Oche

doi:10.2478/auoc-2019-0016

Ovidius University Annals of Chemistry

2019

DOI: 10.2478/auoc-2019-0016

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Phytochemical screening, thin-layer chromatography and antimicrobial activity study of Parquetina nigrescens leaf extracts

Sunday Ogakwu Adoga

Deborah Ehikowoicho Ekle

Barnabas Aloo Kyenge

et al.

Abstract: Parquetina nigrescens leaves have been used in traditional medicine as an important and highly efficacious herbal remedy and have been recommended as a potential source of antimicrobial agent. Three extracts of the plant obtained using n-hexane, methanol and water were used as solvents. Phytochemical analysis of the plant extracts showed important bioactive compounds such as flavonoids, saponins, tannins, terpenes, steroids, phenols and glycosides, but alkaloids were absent in all the three extracts. Agar disk… Show more

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Structural and some Mechanical Properties of Parquetina Nigrescens Pod Nanoparticles Reinforced Mixed Matrix Membrane for Dental Applications

Bello,

Olukunle,

Adeyemo

et al. 2024

KEM

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Polylactic acid (PLA) is a biocompatible, and biodegradable thermoplastic. It is renewable being produced by bacterial fermentation of potatoes, sugarcane, or corn starch. PLA has been attempted in many applications to replace petroleum-based polymers because some of its mechanical properties are excellent and it can be processed easily but low toughness and thermal stability are setbacks from one application to another. To improve on mechanical properties of the PLA to be suitable as biomaterials for dental and other applications, this study focuses on synthesis of Parquetinanigrescens pod nanoparticles (PNPNP) as reinforcements in the PLA to engineer new nanocomposites for biomedical applications. Chemical, structural and some mechanical properties were investigated. TEM result indicates an average size of 14.14 nm of the PNPNP used for reinforcing the PLA. Fourier Transform Infrared Spectrograph establishes a reduction in the amount of light transmitted by the PLA. This is due to PNPNP additions with changes in the wavenumbers of the observed peaks affirming formation of new compounds due to interactions of the PLA molecules and PNPNP. X-ray diffractograms reaffirms new compound formations. Moreover, there are enhancements in mechanical properties up to 3% by weight of PNPNP addition to the PLA with about 92% improvement in the impact toughness.

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Structural and some Mechanical Properties of Parquetina Nigrescens Pod Nanoparticles Reinforced Mixed Matrix Membrane for Dental Applications

Bello,

Olukunle,

Adeyemo

et al. 2024

KEM

View full text Add to dashboard Cite

show abstract

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Phytochemical screening, thin-layer chromatography and antimicrobial activity study of Parquetina nigrescens leaf extracts

Cited by 1 publication

References 16 publications

Structural and some Mechanical Properties of Parquetina Nigrescens Pod Nanoparticles Reinforced Mixed Matrix Membrane for Dental Applications

Structural and some Mechanical Properties of Parquetina Nigrescens Pod Nanoparticles Reinforced Mixed Matrix Membrane for Dental Applications

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