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 |