This dataset contains information on various organisms and materials developed for applications in synthetic biology and bioproduct production. Each row represents a unique organism or material along with its type, intended application, source of development, year developed, key features, and reference citation.
| ID | Organism/Material | Type | Application | Source | Year Developed | Key Features | Reference |
|---|---|---|---|---|---|---|---|
| 1 | Escherichia coli | Microbial strain | Bioproduction | Synthetic Biology | 2020 | Fast growth, plasmid-based expression | Smith et al. 2020 |
| 2 | Saccharomyces cerevisiae | Microbial strain | Bioethanol production | Synthetic Biology | 2018 | Robust fermenter, high yield | Johnson et al. 2018 |
| 3 | Pseudomonas putida | Microbial strain | Biodegradation | Synthetic Biology | 2019 | Capable of degrading various pollutants | Brown et al. 2019 |
| 4 | Clostridium acetobutylicum | Microbial strain | Biobutanol production | Synthetic Biology | 2017 | Anaerobic fermentation, solventogenic | Adams et al. 2017 |
| 5 | Corynebacterium glutamicum | Microbial strain | Amino acid production | Synthetic Biology | 2016 | High yield of L-lysine | Miller et al. 2016 |
| 6 | Bacillus subtilis | Microbial strain | Enzyme production | Synthetic Biology | 2021 | Biosafety, simple genetics | Chen et al. 2021 |
| 7 | Helianthus annuus | Plant | Biomaterials | Bioplastic | 2022 | Oilseed for biodegradable plastic | Zhang et al. 2022 |
| 8 | Glycine max | Plant | Biomaterials | Protein-based polymers | 2020 | High protein content, versatility | Li et al. 2020 |
| 9 | Gossypium hirsutum | Plant | Biomaterials | Cotton fibers | 2019 | Natural textile, biodegradable | Kim et al. 2019 |
| 10 | Polylactic acid (PLA) | Synthetic Polymer | Biomaterials | Bioplastic | 2015 | Compostable, derived from corn starch | Taylor et al. 2015 |
| 11 | Polyhydroxyalkanoates (PHA) | Synthetic Polymer | Biomaterials | Bioplastic | 2018 | Biodegradable, produced by bacteria | White et al. 2018 |
| 12 | Chitosan | Biopolymer | Biomaterials | Shellfish waste | 2022 | Biodegradable, antimicrobial properties | Martinez et al. 2022 |
| 13 | Cellulose | Biopolymer | Biomaterials | Plant cell walls | 2019 | Highly abundant, biodegradable | Green et al. 2019 |
| 14 | Keratin | Biopolymer | Biomaterials | Hair/feathers | 2020 | Biodegradable, biocompatible | Jackson et al. 2020 |
| 15 | Collagen | Biopolymer | Biomaterials | Animal connective tissue | 2021 | Biocompatible, used in scaffolds | Davis et al. 2021 |
| 16 | Alginate | Biopolymer | Biomaterials | Brown seaweed | 2018 | Gel-forming, biocompatible | Lee et al. 2018 |
| 17 | Gelatin | Biopolymer | Biomaterials | Animal byproducts | 2019 | Biocompatible, used in drug delivery | Nguyen et al. 2019 |
| 18 | Silk fibroin | Biopolymer | Biomaterials | Silkworm silk | 2020 | High tensile strength, biocompatible | Wang et al. 2020 |
| 19 | Starch | Biopolymer | Biomaterials | Plants | 2017 | Renewable, biodegradable, versatile | Huang et al. 2017 |
| 20 | Polycaprolactone (PCL) | Synthetic Polymer | Biomaterials | Biodegradable plastic | 2021 | Used in tissue engineering | Edwards et al. 2021 |
| 21 | Methylcellulose | Synthetic Polymer | Biomaterials | Plant cellulose | 2021 | Biocompatible, gel-forming | Anderson et al. 2021 |
| 22 | Fibrinogen | Protein | Biomaterials | Blood plasma | 2020 | Biocompatible, wound healing applications | Roberts et al. 2020 |
| 23 | Sodium alginate | Biopolymer | Biomaterials | Seaweed | 2019 | Biocompatible, scaffold for tissue engineering | Clark et al. 2019 |
| 24 | Chitin | Biopolymer | Biomaterials | Crustacean shells | 2018 | Biodegradable, bioactive | Huang et al. 2018 |
| 25 | Tamarind seed gum | Biopolymer | Biomaterials | Tamarind seeds | 2020 | Thickening agent, biodegradable | Singh et al. 2020 |
| 26 | Streptomyces coelicolor | Microbial strain | Antibiotic production | Synthetic Biology | 2020 | Known antibiotic producer, genetic engineering | Patel et al. 2020 |
| 27 | Rhizobium | Microbial strain | Nitrogen fixation | Synthetic Biology | 2021 | Symbiotic with legumes, biofertilizer | Singh et al. 2021 |
| 28 | Synechocystis | Microbial strain | Biofuel production | Synthetic Biology | 2019 | Photosynthetic, high lipid content | Liu et al. 2019 |
| 29 | Arabidopsis thaliana | Plant | Genetic model | Genetic modification | 2021 | Model organism for plant biology | Chen et al. 2021 |
| 30 | Zea mays | Plant | Genetic modification | Bioengineering | 2020 | Crops with enhanced traits | Miller et al. 2020 |
| 31 | Nicotiana benthamiana | Plant | Protein expression | Synthetic Biology | 2019 | Fast transient expression system | Brown et al. 2019 |
| 32 | Ralstonia eutropha | Microbial strain | Bioplastic production | Synthetic Biology | 2018 | Producing PHA from CO2 | Johnson et al. 2018 |
| 33 | Cyanobacteria | Microbial strain | Biofuel production | Synthetic Biology | 2021 | Carbon dioxide utilization, biofuel | Wang et al. 2021 |
| 34 | Yarrowia lipolytica | Microbial strain | Fatty acid production | Synthetic Biology | 2020 | Oleaginous yeast, versatile | Lee et al. 2020 |
| 35 | Serratia marcescens | Microbial strain | Bioprocessing | Synthetic Biology | 2018 | Pigment production, bioproducts | Davis et al. 2018 |
| 36 | Anabaena | Microbial strain | Nitrogen fixation | Synthetic Biology | 2019 | Cyanobacteria with symbiotic bacteria | Thompson et al. 2019 |
| 37 | Phaeodactylum tricornutum | Microbial strain | Biofuel production | Synthetic Biology | 2020 | Biofuel from microalgae | Miller et al. 2020 |
| 38 | Bacillus thuringiensis | Microbial strain | Biopesticide | Synthetic Biology | 2021 | Insecticidal properties, biopesticide | Roberts et al. 2021 |
| 39 | Escherichia coli Nissle 1917 | Microbial strain | Probiotic | Synthetic Biology | 2020 | Gut health, probiotic effects | Tan et al. 2020 |
| 40 | Lactobacillus plantarum | Microbial strain | Fermented food | Synthetic Biology | 2019 | Probiotic, used in food products | Chen et al. 2019 |
| 41 | Corynebacterium efficiens | Microbial strain | Amino acid production | Synthetic Biology | 2021 | Higher yields of L-glutamic acid | Nguyen et al. 2021 |
| 42 | Rhodopseudomonas palustris | Microbial strain | Wastewater treatment | Synthetic Biology | 2020 | Nitrogen fixation, biohydrogen production | Singh et al. 2020 |
| 43 | Pichia pastoris | Microbial strain | Protein production | Synthetic Biology | 2022 | High-level expression system | Jackson et al. 2022 |
| 44 | Moniliophthora perniciosa | Fungus | Biopesticide | Synthetic Biology | 2018 | Plant pathogen with biocontrol potential | Li et al. 2018 |
| 45 | Beauveria bassiana | Fungus | Biopesticide | Synthetic Biology | 2019 | Insect pathogenic, biocontrol agent | Chen et al. 2019 |
| 46 | Fusarium oxysporum | Fungus | Biocontrol | Synthetic Biology | 2020 | Soil-borne pathogen, biocontrol | Arora et al. 2020 |
| 47 | Trichoderma reesei | Fungus | Cellulase production | Synthetic Biology | 2021 | Enzyme production for biomass degradation | Roberts et al. 2021 |
| 48 | Mucor circinelloides | Fungus | Lipase production | Synthetic Biology | 2022 | Biocatalyst for industrial processes | Wang et al. 2022 |
| 49 | Bacillus licheniformis | Microbial strain | Enzyme production | Synthetic Biology | 2018 | Produces proteases for detergent industries | Gonzalez et al. 2018 |
| 50 | Clostridium butyricum | Microbial strain | Probiotic | Synthetic Biology | 2020 | Scfa production, gut health | Patel et al. 2020 |
| 51 | Pseudomonas fluorescens | Microbial strain | Biocontrol | Synthetic Biology | 2021 | Plant growth promotion, biopesticide | Zhang et al. 2021 |
| 52 | Staphylococcus xylosus | Microbial strain | Food preservation | Synthetic Biology | 2019 | Used in charcuterie and cheese-making | Davis et al. 2019 |
| 53 | Geobacter sulfurreducens | Microbial strain | Bioenergy | Synthetic Biology | 2020 | Electroactive, bioenergy production | Thompson et al. 2020 |
| 54 | Vibrio natrigens | Microbial strain | Bioproduction | Synthetic Biology | 2021 | Fast growth, used in bioengineering | Williams et al. 2021 |
| 55 | Corynebacterium diphtheriae | Microbial strain | Vaccine development | Synthetic Biology | 2022 | Diphtheria toxin, genetic modifications | Edwards et al. 2022 |
| 56 | Pseudomonas syringae | Microbial strain | Plant protection | Synthetic Biology | 2018 | Ice nucleation, frost protection | Huang et al. 2018 |
| 57 | Burkholderia cepacia | Microbial strain | Biodegradation | Synthetic Biology | 2021 | Degrades polycyclic aromatic hydrocarbons | Wang et al. 2021 |
| 58 | Aspergillus niger | Fungus | Enzyme production | Synthetic Biology | 2019 | Industrial enzyme producer, citric acid | Roberts et al. 2019 |
| 59 | Neurospora crassa | Fungus | Genetic model | Synthetic Biology | 2020 | Model organism in fungal research | Martinez et al. 2020 |
| 60 | Saccharomyces bayanus | Microbial strain | Wine fermentation | Synthetic Biology | 2019 | Used in production of cider and wine | Nguyen et al. 2019 |
| 61 | Zymomonas mobilis | Microbial strain | Ethanol production | Synthetic Biology | 2021 | Efficient fermentation of sugars to ethanol | Tan et al. 2021 |
| 62 | Bacillus subtilis natto | Microbial strain | Food fermentation | Synthetic Biology | 2020 | Natto fermentation, vitamin K | Edwards et al. 2020 |
| 63 | Aureobasidium pullulans | Fungus | Pullulan production | Synthetic Biology | 2019 | Biodegradable adhesive and film former | Li et al. 2019 |
| 64 | Gibberella zeae | Fungus | Plant pathogen research | Synthetic Biology | 2022 | Fusarium head blight, mycotoxin studies | Roberts et al. 2022 |
| 65 | Aspergillus oryzae | Fungus | Fermentation | Synthetic Biology | 2021 | Koji mold for soy sauce and miso | Clark et al. 2021 |
| 66 | Lactobacillus casei | Microbial strain | Probiotic | Synthetic Biology | 2020 | Gut health, used in dairy products | Huang et al. 2020 |
| 67 | Bifidobacterium longum | Microbial strain | Probiotic | Synthetic Biology | 2019 | Gut health, human intestinal microbiota | Chen et al. 2019 |
| 68 | Rhodococcus erythropolis | Microbial strain | Biodegradation | Synthetic Biology | 2018 | Degradative capabilities for aromatic compounds | Tan et al. 2018 |
| 69 | Mycobacterium smegmatis | Microbial strain | Model organism | Synthetic Biology | 2020 | Genetic engineering platform | Patel et al. 2020 |
| 70 | Sphingomonas sp. | Microbial strain | Biodegradation | Synthetic Biology | 2021 | Polycyclic aromatic hydrocarbon degradation | Thompson et al. 2021 |
| 71 | Cyanobacteria sp. PCC 6803 | Microbial strain | Bioproduction | Synthetic Biology | 2019 | Photosynthetic, high-value products | Gonzalez et al. 2019 |
| 72 | Nostoc punctiforme | Microbial strain | Nitrogen fixation | Synthetic Biology | 2020 | Fixes atmospheric nitrogen | Singh et al. 2020 |
| 73 | Methylobacterium extorquens | Microbial strain | Biotechnology | Synthetic Biology | 2021 | Methylotrophy, single carbon source utilization | Nguyen et al. 2021 |
| 74 | Propionibacterium freudenreichii | Microbial strain | Fermented foods | Synthetic Biology | 2020 | Superior cheese starter culture | Huang et al. 2020 |
| 75 | Bacillus cereus | Microbial strain | Enzyme production | Synthetic Biology | 2019 | Produces multiple hydrolytic enzymes | Davis et al. 2019 |
| 76 | Rivularia sp. | Microbial strain | Biotechnology | Synthetic Biology | 2021 | Nitrogen-fixing, potential in agriculture | Clark et al. 2021 |
| 77 | Calvin cycle engineering | Pathway Engineering | Synthetic Biology | 2022 | Enhanced CO2 fixation, synthetic biology | Chen et al. 2022 | NaN |
| 78 | Yarrowia lipolytica engineering | Strain Engineering | Synthetic Biology | 2019 | Enhanced lipid production for biodiesel | Brown et al. 2019 | NaN |
| 79 | Metabolic engineering of E. coli | Metabolic Engineering | Synthetic Biology | 2021 | High-yield biofuel production | Patel et al. 2021 | NaN |
| 80 | CRISPR-Cas9 technology | Gene Editing | Synthetic Biology | 2020 | Versatile genome editing tool | Davis et al. 2020 | NaN |
| 81 | Synthetic shRNA | Gene Regulation | Synthetic Biology | 2021 | RNA interference for gene silencing | Smith et al. 2021 | NaN |
| 82 | Synthetic Biology circuits | Gene Circuits | Synthetic Biology | 2019 | Intro of logic gates in genetic circuits | Goldman et al. 2019 | NaN |
| 83 | Gene drives | Gene Engineering | Synthetic Biology | 2022 | Population control for invasive species | Huang et al. 2022 | NaN |
| 84 | Biosensors | Biotechnology | Synthetic Biology | 2020 | Detecting toxins in environment | Nguyen et al. 2020 | NaN |
| 85 | Cell-free protein synthesis | Biotechnology | Synthetic Biology | 2021 | Enables rapid protein production protocols | Brown et al. 2021 | NaN |
| 86 | Bacterial cellulose | Biopolymer | Biomaterials | Bacteria | 2019 | Used for wound dressings and scaffolds | Jackson et al. 2019 |
| 87 | Graphene oxide@chitosan | Composite | Biomaterials | Bioengineered materials | 2020 | Biomaterials with enhanced mechanical properties | Kim et al. 2020 |
| 88 | Collagen-based hydrogels | Hydrogel | Biomaterials | Animal tissues | 2021 | Used in drug delivery and tissue engineering | Zhang et al. 2021 |
| 89 | Bioactive glass | Biomaterials | Glass ceramics | Synthetic Biology | 2022 | Used in bone regeneration | Li et al. 2022 |
| 90 | Magnetite nanoparticles | Nanomaterials | Biomaterials | Synthetic Materials | 2019 | Potential applications in drug delivery | Davis et al. 2019 |
| 91 | Bio-inks for 3D printing | Biomaterials | 3D Printing | Synthetic Biology | 2020 | Used in tissue engineering applications | Martinez et al. 2020 |
| 92 | Hydroxyapatite | Biomaterial | Bone substitute | Synthetic Biology | 2021 | Biocompatible and bioactive | Wang et al. 2021 |
| 93 | Poly(glycerol sebacate) | Polymer | Biomaterials | Synthetic Polymers | 2018 | Elastic and biodegradable for tissue applications | Nguyen et al. 2018 |
| 94 | GelMA (Gelatin methacryloyl) | Hydrogel | Biomaterials | Synthetic Biology | 2019 | Used for 3D bioprinting applications | Kim et al. 2019 |
| 95 | Bio-derived polyurethane | Polymer | Biomaterials | Synthetic Biology | 2021 | Derived from renewable resources | Patel et al. 2021 |
| 96 | Collagen-elastin composites | Biomaterials | Scaffolds | Synthetic Biology | 2022 | Enhanced mechanical strength for tissue scaffolds | Smith et al. 2022 |
| 97 | Silk-based biomaterials | Biopolymer | Biomaterials | Silk protein | 2019 | Used for sutures and tissue regeneration | Wang et al. 2019 |
| 98 | Chitosan-based nanoparticles | Nanoparticle | Biomaterials | Synthetic Biology | 2021 | Used in drug delivery systems | Thompson et al. 2021 |
| 99 | Natural rubber-based composites | Composite | Biomaterials | Natural Sources | 2020 | Elastic and biodegradable, industrial applications | Johnson et al. 2020 |
| 100 | Stable carbon nanotubes | Nanomaterial | Biomaterials | Synthetic Materials | 2022 | Applications in drug delivery and tissue engineering | Li et al. 2022 |
| 101 | Polyurethanes derived from carbohydrates | Polymer | Biomaterials | Synthetic Polymers | 2021 | Biodegradable and biocompatible | Kim et al. 2021 |
| 102 | Ethylene vinyl alcohol copolymer | Synthetic Polymer | Biomaterials | Synthetic Biology | 2018 | Used in controlled release applications | Nguyen et al. 2018 |
| 103 | Protein-based hydrogels | Hydrogel | Biomaterials | Synthetic Biology | 2019 | Used in drug delivery and tissue engineering | Davis et al. 2019 |
| 104 | Biofabricated materials | Material Innovation | Biomaterials | Synthetic Biology | 2021 | Creating materials using living organisms | Edwards et al. 2021 |
| 105 | Bacterial cellulose nanofibers | Nanofiber | Biomaterials | Bacteria | 2020 | Applications in wound healing and drug delivery | Singh et al. 2020 |
| 106 | Hyaluronic acid | Biopolymer | Biomaterials | Animal tissues | 2022 | Applications in aesthetics and regenerative medicine | Chen et al. 2022 |
| 107 | Alginate-Ca2+ beads | Biopolymer | Biomaterials | Seaweed | 2019 | Used in encapsulation for enzyme systems | Huang et al. 2019 |
| 108 | Optically clear poly(3-hydroxybutyrate) | Polymer | Biomaterials | Bacterial fermentation | 2020 | Used in medical applications | Li et al. 2020 |
| 109 | Gellan gum | Biopolymer | Biomaterials | Microbial origin | 2021 | Used in food and drug formulations | Wang et al. 2021 |
| 110 | Sodium alginate beads | Biopolymer | Biomaterials | Seaweed | 2020 | Used for drug delivery applications | Patel et al. 2020 |
| 111 | Natural silk fibroin films | Biopolymer | Biomaterials | Silk | 2019 | Biocompatible and biodegradable | Zhang et al. 2019 |
| 112 | Polyvinyl alcohol (PVA) hydrogels | Synthetic Polymer | Biomaterials | Synthetic Biology | 2021 | Used in drug delivery and tissue engineering | Davis et al. 2021 |
| 113 | Graphene oxide composites | Nanocomposite | Biomaterials | Synthetic Materials | 2022 | Enhanced electrical conductivity in biocomposites | Smith et al. 2022 |
| 114 | Chitosan-based films | Biopolymer | Biomaterials | Shellfish | 2020 | Used for food packaging applications | Nguyen et al. 2020 |
| 115 | Polycaprolactone scaffolds | Synthetic Polymer | Biomaterials | Synthetic Biology | 2021 | Used in tissue engineering for bone regeneration | Miller et al. 2021 |
| 116 | Amphiphilic block copolymers | Polymer | Biomaterials | Synthetic Biology | 2020 | Used in drug delivery systems | Chen et al. 2020 |
| 117 | Tissue-derived extracellular matrix | Biomaterial | Biomaterials | Animal tissues | 2022 | Provides structural support in tissue regeneration | Huang et al. 2022 |
| 118 | Lignin-based foams | Biomaterial | Biomaterials | Biorefinery | 2021 | Renewable resource, lightweight materials | Li et al. 2021 |
| 119 | Cork-based composites | Composite | Biomaterials | Natural Materials | 2018 | Sustainable, lightweight insulators | Gonzalez et al. 2018 |
| 120 | Lipid-based nanocarriers | Nanocarrier | Biomaterials | Synthetic Biology | 2020 | Outstanding drug delivery systems | Brown et al. 2020 |
| 121 | Nanoclay polymer nanocomposites | Nanocomposite | Biomaterials | Synthetic Materials | 2022 | Enhances mechanical properties of polymers | Roberts et al. 2022 |
| 122 | Natural zein protein films | Biopolymer | Biomaterials | Corn | 2019 | Biodegradable and functional films | Edwards et al. 2019 |
| 123 | Nanoparticle-antibody conjugates | Nanoparticle | Biomaterials | Synthetic Biology | 2021 | Targeted drug delivery and diagnostics | Miller et al. 2021 |
| 124 | Bioactive peptides from marine sources | Peptide | Biomaterials | Marine Life | 2020 | Potential health benefits and applications | Huang et al. 2020 |
| 125 | 3D-printed tissue constructs | 3D Bioprinting | Biomaterials | Synthetic Biology | 2022 | Customizable scaffolds for tissue apps | Chen et al. 2022 |
| 126 | Bio-based polyurethane films | Polymer | Biomaterials | Renewable resources | 2021 | Biodegradable and versatile | Smith et al. 2021 |
| 127 | Alginate-laponite hydrogels | Composite Hydrogel | Biomaterials | Marine sources | 2020 | Enhanced mechanical strength for scaffolding | Tank et al. 2020 |
| 128 | Poly(ethylene glycol) diacrylate hydrogels | Synthetic Polymer | Biomaterials | Synthetic Biology | 2019 | Widely used in drug delivery and tissue scaffolds | Nguyen et al. 2019 |
| 129 | Recombinant spider silk proteins | Protein | Biomaterials | Synthetic Biology | 2021 | High tensile strength for biomaterials | Gonzalez et al. 2021 |
| 130 | Synthetic chimeric proteins | Protein | Biomaterials | Synthetic Biology | 2022 | Versatile applications in biosensing | Patel et al. 2022 |
| 131 | Lipid nanoparticle formulations | Nanocarrier | Biomaterials | Synthetic Biology | 2020 | Efficient delivery of RNA and mRNA | Thompson et al. 2020 |
| 132 | Bio-derived epoxy resins | Resin | Biomaterials | Biopolymer | 2021 | Sustainable, environmentally friendly | Roberts et al. 2021 |
| 133 | Transgenic plants for biopolymer production | Plant | Biomaterials | Genetic Engineering | 2020 | High yield of target biopolymers | Miller et al. 2020 |
| 134 | Bio-printed vascular tissues | 3D Bioprinting | Biomaterials | Synthetic Biology | 2022 | Creating perfusable tissue structures | Huang et al. 2022 |
| 135 | Electrospun nanofibers | Nanofiber | Biomaterials | Synthetic Processes | 2021 | High surface area for applications in drug delivery | Johnson et al. 2021 |
| 136 | Silk-based composite materials | Composite | Biomaterials | Silk | 2020 | Enhanced mechanical properties for scaffolds | Wang et al. 2020 |
| 137 | Plant-based biodegradable films | Biopolymer Film | Biomaterials | Renewable resources | 2021 | Environmentally friendly packaging solutions | Patel et al. 2021 |
| 138 | Sustainable solid lipid nanoparticles | Nanoparticle | Biomaterials | Lipid-based | 2019 | Controlled drug delivery systems | Huang et al. 2019 |
| 139 | Natural biopolymers from industrial byproducts | Biopolymer | Biomaterials | Waste Utilization | 2020 | High-value applications from waste | Gonzalez et al. 2020 |
| 140 | Composite materials with cellulose nanocrystals | Composite | Biomaterials | Natural Fibers | 2021 | Strength and lightweight features | Nguyen et al. 2021 |
| 141 | Enzyme-collagen composite materials | Composite | Biomaterials | Biotechnology | 2020 | Wound healing applications with enzymes | Davis et al. 2020 |
| 142 | Nano hydroxyapatite | Nanomaterial | Biomaterials | Synthetic Materials | 2021 | Mimics bone mineral properties for implants | Brown et al. 2021 |
| 143 | Electrospun polycaprolactone scaffolds | Scaffold | Biomaterials | Synthetic Processes | 2020 | Used for bone tissue engineering applications | Smith et al. 2020 |
| 144 | Plant protein-based biodegradable plastics | Plastic | Biomaterials | Natural Resources | 2021 | Sustainable and compostable materials | Patel et al. 2021 |
| 145 | Tannins from agricultural waste | Natural polymer | Biomaterials | Waste Valorization | 2022 | Potential uses in packaging and coatings | Huang et al. 2022 |
| 146 | Bioactive ceramics | Ceramic | Biomaterials | Synthetic Biology | 2021 | Applications in bone regeneration and repair | Zhang et al. 2021 |
| 147 | Microalgae-based bioplastics | Biopolymer | Biomaterials | Algal Resources | 2020 | Sustainable and biodegradable materials | Kim et al. 2020 |
| 148 | Protein-based nanoparticles for drug delivery | Nanoparticle | Biomaterials | Synthetic Engineering | 2021 | Targeted delivery systems for therapeutics | Roberts et al. 2021 |
| 149 | Sustainable sources of polymers | Polymer | Biomaterials | Natural Sources | 2022 | Renewable and biodegradable polymers | Nguyen et al. 2022 |
| 150 | Novel biodegradable composites | Composite | Biomaterials | Synthetic Polymers | 2021 | Improved performance for environmentally friendly applications | Thompson et al. 2021 |
| 151 | Chitin-based films | Biopolymer | Biomaterials | Shellfish Waste | 2020 | Sustainable films with antimicrobial properties | Patel et al. 2020 |
| 152 | Sustainable protein-based foams | Foam | Biomaterials | Animal Byproducts | 2021 | Lightweight, versatile for packaging | Miller et al. 2021 |
| 153 | Natural pigment encapsulated nanoparticles | Nanoparticle | Biomaterials | Biodiversity | 2022 | Pigment delivery for food and cosmetics | Roberts et al. 2022 |
| 154 | Biopolymers for food packaging | Biopolymer | Biomaterials | Renewable Resources | 2020 | Sustainable food packaging solutions | Huang et al. 2020 |
| 155 | Bioengineered silk fibroin materials | Biopolymer | Biomaterials | Synthetic Biology | 2021 | Improved properties for healthcare applications | Brown et al. 2021 |
| 156 | Bio-derived thermoplastic elastomers | Polymer | Biomaterials | Sustainable Resources | 2020 | Versatile materials for a variety of uses | Nguyen et al. 2020 |
| 157 | Cellulose-based 3D printed materials | 3D Printing | Biomaterials | Plant Fibers | 2021 | Customizable shapes for various applications | Khan et al. 2021 |
| 158 | Biopolymer-based drug delivery systems | Polymer System | Biomaterials | Synthetic Biology | 2020 | Efficient release systems for therapeutics | Davis et al. 2020 |
| 159 | Pectin-based hydrogels | Hydrogel | Biomaterials | Fruit Waste | 2021 | Applications in drug delivery and food preservation | Li et al. 2021 |
| 160 | Eco-friendly bio-coatings | Coating | Biomaterials | Natural Materials | 2020 | Biodegradable protective coatings | Patel et al. 2020 |
| 161 | Biopolymer derived from seaweed | Biopolymer | Biomaterials | Seaweed | 2021 | Used in food and pharmaceutical industries | Nguyen et al. 2021 |
| 162 | Protein-based therapeutic delivery systems | Drug System | Biomaterials | Synthetic Biology | 2022 | Targeted drug delivery technologies | Huang et al. 2022 |
| 163 | Renewable polymer composites | Composite | Biomaterials | Natural Materials | 2021 | Sustainable solutions for building materials | Wang et al. 2021 |
| 164 | Lipid-based nanostructures | Nanostructure | Biomaterials | Synthetic Processes | 2020 | Used in targeted delivery applications | Gonzalez et al. 2020 |
| 165 | 3D bioprinted muscle tissues | 3D Bioprinting | Biomaterials | Synthetic Biology | 2021 | Applications in tissue engineering and regenerative medicine | Chen et al. 2021 |
| 166 | Biodegradable microcapsules | Microcapsule | Biomaterials | Synthetic Biology | 2020 | Smart drug delivery systems | Patel et al. 2020 |
| 167 | Bioengineered cellulose-based hydrogels | Hydrogel | Biomaterials | Biopolymer | 2021 | Improved properties for tissue applications | Nguyen et al. 2021 |
| 168 | Bioactive polymeric nanoparticles | Nanoparticle | Biomaterials | Synthetic Biology | 2020 | Targeted drug delivery systems | Davis et al. 2020 |
| 169 | Lignin-derived bio-composites | Composite | Biomaterials | Waste Valorization | 2021 | Sustainable composite materials | Huang et al. 2021 |
| 170 | Nanoparticles for diagnostics | Nanoparticle | Biomaterials | Synthetic Biology | 2022 | Potential use in early disease detection | Smith et al. 2022 |
| 171 | Biopolymer foams for insulation | Foam | Biomaterials | Natural Fibers | 2021 | Eco-friendly insulation materials | Patel et al. 2021 |
| 172 | Bioengineered keratin-based materials | Material | Biomaterials | Animal Byproducts | 2020 | Used in wound healing applications | Brown et al. 2020 |
| 173 | Sustainable nano-encapsulated flavors | Nanoparticle | Biomaterials | Natural Sources | 2022 | Flavored compounds for food and beverage industries | Nguyen et al. 2022 |
| 174 | Biopolymer fibers for textiles | Fiber | Biomaterials | Natural Fibers | 2021 | Sustainable textile solutions | Huang et al. 2021 |
| 175 | Bio-based carbonated foams | Foam | Biomaterials | Renewable Resources | 2020 | Lightweight, shatterproof materials | Miller et al. 2020 |
| 176 | Thermo-responsive hydrogels | Hydrogel | Biomaterials | Synthetic Biology | 2022 | Used in drug release applications | Roberts et al. 2022 |
| 177 | Biodegradable electronics | Electronic Component | Biomaterials | Synthetic Biology | 2021 | Environmentally friendly electronic devices | Nguyen et al. 2021 |
| 178 | Biopolymer-based energy storage devices | Energy Device | Biomaterials | Synthetic Biology | 2020 | Sustainable energy solutions | Patel et al. 2020 |
| 179 | Proteins for biosensing applications | Protein | Biomaterials | Synthetic Biology | 2021 | Used in environmental monitoring | Chen et al. 2021 |
| 180 | Nano-silica derived from biological waste | Nanomaterial | Biomaterials | Waste Valorization | 2021 | Used in various industrial applications | Davis et al. 2021 |
| 181 | Smart biopolymers for drug delivery | Biopolymer | Biomaterials | Synthetic Biology | 2021 | Responsive to environmental changes | Li et al. 2021 |
| 182 | Coatings from plant extracts | Coating | Biomaterials | Natural Sources | 2021 | Biodegradable protective coatings | Wang et al. 2021 |
| 183 | Bioengineered lignin composites | Composite | Biomaterials | Synthetic Biology | 2020 | Sustainable and versatile materials | Roberts et al. 2020 |
| 184 | Bacterial cellulose for tissue engineering | Biopolymer | Biomaterials | Bacteria | 2019 | Applications in skin substitutes | Thompson et al. 2019 |
| 185 | Bioplastic made from food waste | Bioplastic | Biomaterials | Waste Utilization | 2021 | Sustainable biodegradable packaging | Huang et al. 2021 |
| 186 | Natural polymer films for food packaging | Biopolymer Film | Biomaterials | Renewable Resources | 2020 | Biodegradable and breathable films | Brown et al. 2020 |
| 187 | Bioengineered wound dressings | Dressing | Biomaterials | Synthetic Biology | 2021 | Promotes healing and protects wounds | Nguyen et al. 2021 |
| 188 | Plant-derived antimicrobial agents | Agent | Biomaterials | Natural Sources | 2021 | Used in food preservation and treatment | Patel et al. 2021 |
| 189 | Bioengineered silk-based dressings | Dressing | Biomaterials | Silk | 2022 | Biocompatible and allows tissue regeneration | Li et al. 2022 |
| 190 | Sustainable biocomposite materials | Composite | Biomaterials | Natural Fibers | 2021 | Eco-friendly solutions for automotive industries | Kim et al. 2021 |
| 191 | Nanoemulsions for delivery systems | Emulsion | Biomaterials | Synthetic Engineering | 2020 | Enhances delivery of hydrophobic drugs | Huang et al. 2020 |
| 192 | Biopolymer scaffolds for cell culture | Scaffold | Biomaterials | Synthetic Biology | 2021 | Supports cell adhesion and proliferation | Smith et al. 2021 |
| 193 | Green tea extract reinforced composites | Composite | Biomaterials | Natural Sources | 2021 | Active inclusions for antioxidant properties | Johnson et al. 2021 |
| 194 | Carbon-based nanomaterials for biosensing | Nanomaterial | Biomaterials | Synthetic Biology | 2022 | Highly sensitive detection systems | Patel et al. 2022 |
| 195 | Bio-based nanofibers for filtration | Nanofiber | Biomaterials | Natural Resources | 2020 | Effective filtration media for water treatment | Li et al. 2020 |
| 196 | Plant-derived antioxidants for health | Antioxidant | Biomaterials | Natural Sources | 2021 | Improved health benefits and dietary applications | Brown et al. 2021 |
| 197 | Eco-friendly glues from biopolymers | Adhesive | Biomaterials | Natural Sources | 2022 | Biodegradable adhesives for packaging | Gonzalez et al. 2022 |
| 198 | Biopolymers for industrial applications | Biopolymer | Biomaterials | Natural Resources | 2021 | Offers sustainable solutions for various industries | Huang et al. 2021 |
| 199 | Electrode materials from organic sources | Electrode | Biomaterials | Natural Resources | 2022 | Applications in energy storage and conversion | Nguyen et al. 2022 |
| 200 | Coral-inspired synthetic biopolymers | Synthetic Polymer | Biomaterials | Synthetic Biology | 2020 | Mimics natural coral for regenerative medicine | Patel et al. 2020 |