| 1 | Deconstruction of Kappaphycus alvarezii biomass by pressurized solvents to increase the carrageenan purity | 12.2 | 1 | Citations (PDF) |
| 2 | Principles, challenges and prospects for electro-oxidation treatment of oilfield produced water | 8.3 | 1 | Citations (PDF) |
| 3 | A Narrative Review on the Neuroprotective Potential of Brown Macroalgae in Alzheimer’s Disease | 4.6 | 2 | Citations (PDF) |
| 4 | Mannosylerythritol lipids as green pesticides and plant biostimulants | 3.7 | 8 | Citations (PDF) |
| 5 | An Overview on Pretreatments for the Production of Cassava Peels-based Xyloligosaccharides: State of Art And Challenges | 2.4 | 8 | Citations (PDF) |
| 6 | Enhanced production of surfactin using cassava wastewater and hydrophobic inducers: a prospection on new homologues | 4.0 | 5 | Citations (PDF) |
| 7 | Hierarchical membrane by centrifugal casting and effects of incorporating activated carbon as pore-former | 6.2 | 2 | Citations (PDF) |
| 8 | The Production of High-Added-Value Bioproducts from Non-Conventional Biomasses: An Overview | 4.0 | 9 | Citations (PDF) |
| 9 | A Critical Review on Chlorella vulgaris Deconstruction by Green Sequential Extractions: The Potential of (Bio)Surfactant Modifiers | 2.4 | 0 | Citations (PDF) |
| 10 | Biosynthesis of metallic nanoparticles by bacterial cell-free extract | 5.1 | 5 | Citations (PDF) |
| 11 | Oil displacement properties of surfactin: a comparative study | 1.0 | 1 | Citations (PDF) |
| 12 | The Biosurfactants Mannosylerythritol Lipids (MELs) as Stimulant on the Germination of Lactuca sativa L. | 3.4 | 7 | Citations (PDF) |
| 13 | Effects of Mannosylerythritol-Lipids-B on Cutibacterium acnes ATCC 6919 | 1.5 | 1 | Citations (PDF) |
| 14 | Persimmon (<i>Diospyros Kaki</i> L.): Chemical Properties, Bioactive Compounds and Potential Use in the Development of New Products – A Review | 8.0 | 43 | Citations (PDF) |
| 15 | Fundamental Concepts of Dye-Containing Textile Wastewater Treatments: Microbial and Enzymatic Approaches | 0.0 | 1 | Citations (PDF) |
| 16 | Microbial Peptidase in Food Processing: Current State of the Art and Future Trends | 2.0 | 15 | Citations (PDF) |
| 17 | Phycoremediation of Copper by Chlorella protothecoides (UTEX 256): Proteomics of Protein Biosynthesis and Stress Response | 4.0 | 5 | Citations (PDF) |
| 18 | Copper recovery through biohydrometallurgy route: chemical and physical characterization of magnetic (m), non-magnetic (nm) and mix samples from obsolete smartphones | 3.5 | 5 | Citations (PDF) |
| 19 | Sequential Hydrolysis of Chicken Feathers Composed of Ultrasound and Enzymatic Steps: An Enhanced Protein Source with Bioactive Peptides | 4.0 | 12 | Citations (PDF) |
| 20 | Production of Polyhydroxyalkanoates by Bacillus megaterium: Prospecting on Rice Hull and Residual Glycerol Potential | 4.0 | 5 | Citations (PDF) |
| 21 | Cassava wastewater valorization for the production of biosurfactants: surfactin, rhamnolipids, and mannosileritritol lipids | 4.0 | 18 | Citations (PDF) |
| 22 | Biosurfactants: A Green and Sustainable Remediation Alternative 2021, , 49-72 | | 1 | Citations (PDF) |
| 23 | Amino acids, fatty acids, and peptides in microalgae biomass harvested from phycoremediation of swine wastewaters | 3.0 | 19 | Citations (PDF) |
| 24 | Biodegradation of azo dye-containing wastewater by activated sludge: a critical review | 4.0 | 27 | Citations (PDF) |
| 25 | Apoptosis Induction in Murine Melanoma (B16F10) Cells by Mannosylerythritol Lipids-B; a Glycolipid Biosurfactant with Antitumoral Activities | 3.1 | 11 | Citations (PDF) |
| 26 | A prospection on membrane-based strategies for downstream processing of surfactin | 11.9 | 20 | Citations (PDF) |
| 27 | Filmes biodegradáveis e agentes de reforço vegetais: Um enfoque em estudos brasileiros sob a ótica da economia circular | 0.1 | 0 | Citations (PDF) |
| 28 | Perspective on integrated biorefinery for valorization of biomass from the edible insect Tenebrio molitor | 15.4 | 22 | Citations (PDF) |
| 29 | Chlorella vulgaris phycoremediation at low Cu+2 contents: Proteomic profiling of microalgal metabolism related to fatty acids and CO2 fixation | 8.4 | 15 | Citations (PDF) |
| 30 | Biosurfactant inducers for enhanced production of surfactin and rhamnolipids: an overview | 4.0 | 25 | Citations (PDF) |
| 31 | Valorization of Agri-Food Wastes | 0.0 | 7 | Citations (PDF) |
| 32 | Application of Immobilized Laccase on Polyurethane Foam for Ex-Situ Polycyclic Aromatic Hydrocarbons Bioremediation | 4.4 | 17 | Citations (PDF) |
| 33 | Kappaphycus alvarezii macroalgae: An unexplored and valuable biomass for green biorefinery conversion | 15.4 | 43 | Citations (PDF) |
| 34 | Biological activity of mannosylerythritol lipids on the mammalian cells | 4.1 | 8 | Citations (PDF) |
| 35 | Fruits and vegetable-processing waste: a case study in two markets at Rio de Janeiro, RJ, Brazil | 4.4 | 23 | Citations (PDF) |
| 36 | Enhanced textile wastewater treatment by a novel biofilm carrier with adsorbed nutrients | 3.7 | 15 | Citations (PDF) |
| 37 | Mannosylerythritol lipids: antimicrobial and biomedical properties | 4.1 | 76 | Citations (PDF) |
| 38 | Production of active cassava starch films; effect of adding a biosurfactant or synthetic surfactant | 4.8 | 26 | Citations (PDF) |
| 39 | Nanoformulations Based on Bacillus subtilis Lipopeptides: The Future of Agriculture 2019, , 75-88 | | 1 | Citations (PDF) |
| 40 | Microalgae for bioremediation of textile wastewater: An overview | 0.3 | 18 | Citations (PDF) |
| 41 | A novel approach for the production and purification of mannosylerythritol lipids (MEL) by Pseudozyma tsukubaensis using cassava wastewater as substrate | 8.8 | 68 | Citations (PDF) |
| 42 | An overview on the application of genus Chlorella in biotechnological processes | 0.4 | 42 | Citations (PDF) |
| 43 | Comparative study on microbial enhanced oil recovery using mannosylerithritol lipids and surfactin | 0.0 | 4 | Citations (PDF) |
| 44 | Comparative study: bench-scale surfactin production from bacillus subtilis using analytical grade and concentrated glycerol from the biodiesel industry | 0.0 | 7 | Citations (PDF) |
| 45 | Optimizing alternative substrate for simultaneous production of surfactin and 2,3-butanediol by Bacillus subtilis LB5a | 3.7 | 37 | Citations (PDF) |
| 46 | Optimized production of biosurfactant from Pseudozyma tsukubaensis using cassava wastewater and consecutive production of galactooligosaccharides: An integrated process | 3.7 | 24 | Citations (PDF) |
| 47 | Production of prebiotic galactooligosaccharides from lactose by Pseudozyma tsukubaensis and Pichia kluyveri | 3.7 | 19 | Citations (PDF) |
| 48 | Production of Enzymes from Agroindustrial Wastes by Biosurfactant-Producing Strains of <i>Bacillus subtilis</i> | 10.0 | 38 | Citations (PDF) |
