Biosurfactants: Chemical Properties, Ecofriendly Environmental Applications, and Uses in the Industrial Energy Sector DOI Creative Commons
Yslla Emanuelly da Silva Faccioli,

Kaio Wêdann de Oliveira,

Jenyffer Medeiros Campos Guerra

et al.

Energies, Journal Year: 2024, Volume and Issue: 17(20), P. 5042 - 5042

Published: Oct. 10, 2024

The exploitation of nature and the increase in manufacturing production are cause major environmental concerns, considerable efforts needed to resolve such issues. Oil petroleum derivatives constitute primary energy sources used industries. However, transportation use these products have huge impacts. A significant issue with oil-related pollution is that hydrocarbons highly toxic low biodegradability, posing a risk ecosystems biodiversity. Thus, there has been growing interest renewable compounds from natural sources. Biosurfactants amphipathic microbial biomolecules emerging as sustainable alternatives beneficial characteristics, including biodegradability toxicity. biosurfactant-producing microorganisms serve an ecologically correct bioremediation strategy for polluted by hydrocarbons. Moreover, synthetic surfactants can additional recalcitrant contaminants introduced into environment, leading undesirable outcomes. replacement biosurfactants help solve problems. broad gamut industrial sectors. purpose this review was furnish comprehensive view biosurfactants, classifications, properties, applications fields. In particular, practical remediation discussed, special focus on bioremediation, removal heavy metals, phytoremediation, enhanced oil recovery, metal corrosion inhibition, improvements agriculture. also describes innovating decontamination methods, nanobioremediation, genetically modified microorganisms, enzymatic modeling prototyping, biotechnology, process engineering. Research patents market prospects discussed illustrate trends biosurfactants.

Language: Английский

Extraction of Biosurfactants from LDPE and PAH degrading bacterial strains isolated from plastics and oil contaminated sites: Statistical Optimization using Response Surface Methodology DOI Creative Commons
Rajalakshmi Sridharan, Manasa Muralidharan, P. Senthil Kumar

et al.

Journal of Hazardous Materials Advances, Journal Year: 2025, Volume and Issue: unknown, P. 100603 - 100603

Published: Jan. 1, 2025

Language: Английский

Citations

0
Surfactant Mediated Dispersion and stabilization of nano-emulsion droplets enhance antimicrobial activity against multidrug resistant bacteria DOI
Pallavi Shukla,

Priya Ranjan Prasad Verma,

Vinita Tiwari

et al.

Journal of Molecular Liquids, Journal Year: 2025, Volume and Issue: 426, P. 127300 - 127300

Published: March 6, 2025

Language: Английский

Citations

0
Production, Characterization and Application of Biosurfactant for Cleaning Cotton Fabric and Removing Oil from Contaminated Sand DOI Open Access
Renata Raianny da Silva, MARIA CATARINA FARIAS CALDAS,

CARLOS VINICIUS ALVES DE LIMA

et al.

Processes, Journal Year: 2024, Volume and Issue: 12(11), P. 2584 - 2584

Published: Nov. 18, 2024

Biosurfactants are a group of environmentally friendly amphiphilic molecules that applicable in numerous industries as essential biotechnology products, such food production, cleaning pharmacology, cosmetics, pesticides, textiles and oil gas fields. In this sense, knowing the potential these biomolecules, aim work was to produce biosurfactant, characterize it regarding its chemical surfactant properties investigate removal contaminants cotton fabrics. The biosurfactant initially obtained from cultivation microorganism Candida glabrata UCP 1002 medium containing distilled water with 2.5% residual frying oil, molasses corn steep liquor agitated at 200 rpm for 144 h. reduced surface tension 72 29 mN/m. toxicity evaluated using Tenebrio molitor larvae demonstrated non-toxicity. applied degreaser engine on fabric, showed 83% (2× CMC), 74% (1× CMC) 78% (1/2× removal. Therefore, produced has promising emulsifying application various industrial segments.

Language: Английский

Citations

1
Production and Optimization of Biosurfactant Properties Using Candida mogii and Licuri Oil (Syagrus coronata) DOI Creative Commons
Peterson F. F. da Silva,

Renata R. da Silva,

Leonie Asfora Sarubbo

et al.

Foods, Journal Year: 2024, Volume and Issue: 13(24), P. 4029 - 4029

Published: Dec. 13, 2024

Optimizing biosurfactant (BS) production is key for sustainable industrial applications. This study investigated BS synthesis by Candida mogii using licuri oil, a renewable carbon source rich in medium-chain fatty acids. Process optimization was conducted via central composite design (CCD), adjusting concentrations of glucose, NH4NO3, and yeast extract. The predictive model achieved an R2 0.9451 adjusted 0.8812. Under optimized conditions, C. lowered water surface tension from 71.04 mN·m−1 to 28.66 mN·m−1, with critical micelle concentration (CMC) 0.8 g·L−1. displayed high emulsification indices, exceeding 70% canola, licuri, motor oils, suggesting strong potential as emulsifier. FTIR NMR analyses confirmed its glycolipid structure. Bioassays showed no toxicity Lactuca sativa seeds, ensuring environmental safety, while antimicrobial tests demonstrated efficacy against Staphylococcus aureus Escherichia coli, indicating suitability biocidal agent. work positions oil promising alternative bioremediation, biotechnology, uses.

Language: Английский

Citations

1
Biosurfactants: Chemical Properties, Ecofriendly Environmental Applications, and Uses in the Industrial Energy Sector DOI Creative Commons
Yslla Emanuelly da Silva Faccioli,

Kaio Wêdann de Oliveira,

Jenyffer Medeiros Campos Guerra

et al.

Energies, Journal Year: 2024, Volume and Issue: 17(20), P. 5042 - 5042

Published: Oct. 10, 2024

The exploitation of nature and the increase in manufacturing production are cause major environmental concerns, considerable efforts needed to resolve such issues. Oil petroleum derivatives constitute primary energy sources used industries. However, transportation use these products have huge impacts. A significant issue with oil-related pollution is that hydrocarbons highly toxic low biodegradability, posing a risk ecosystems biodiversity. Thus, there has been growing interest renewable compounds from natural sources. Biosurfactants amphipathic microbial biomolecules emerging as sustainable alternatives beneficial characteristics, including biodegradability toxicity. biosurfactant-producing microorganisms serve an ecologically correct bioremediation strategy for polluted by hydrocarbons. Moreover, synthetic surfactants can additional recalcitrant contaminants introduced into environment, leading undesirable outcomes. replacement biosurfactants help solve problems. broad gamut industrial sectors. purpose this review was furnish comprehensive view biosurfactants, classifications, properties, applications fields. In particular, practical remediation discussed, special focus on bioremediation, removal heavy metals, phytoremediation, enhanced oil recovery, metal corrosion inhibition, improvements agriculture. also describes innovating decontamination methods, nanobioremediation, genetically modified microorganisms, enzymatic modeling prototyping, biotechnology, process engineering. Research patents market prospects discussed illustrate trends biosurfactants.

Language: Английский

Citations

0