Table 5.
Comparison of testing of lignin‐, silica‐, and carbon‐based nano‐ and microscaled materials on living organisms.
| Test type | Lignin‐based materials | Inorganic NPs | Carbon‐based nanomaterials[a] |
|---|---|---|---|
| In vitro | |||
| antiviral | no published studies | Ag NPs131 | functionalized fullerenes132, 133, 134 |
| antibacterial | Ag‐infused NPs (SKL),117 lignin‐capped Ag NPs (AL),135, 136 silica/lignin–Ag NPs (KL),116 acid‐precipitated lignin particles (AL)6 | Ag NPs,137 silica NPs (4 nm),138 nitric oxide‐ releasing silica NPs139 |
SWCNTs140
fullerenes141 |
| antifungal | lignin‐capped Ag NPs (AL)135 | Ag NPs,142 amphotericin B‐conjugated silica NPs143 | functionalized MWCNTs144 |
| anticancer | lignin NPs with active substances (AL[b]),66 lignin‐derived carbon dots (LS),61 emulsified trans‐resveratrol (SLS)145 | silica NPs146
silica NPs loaded with active substances147 |
fullerenes148
crystalline fullerenes127 |
| cell viability | lignin microcapsules (KL),54 LNPs (SKL),64 nanoemulsion encapsulating trans‐resveratrol (SLS),147 lignin‐derived carbon nanodots61 | silica NPs,149, 150 polyamidoamine dendrimer‐capped silica NPs151 | C NPs,129 MWCNTs,129 crystalline fullerenes127 |
| In vivo | |||
| resveratrol‐entrapped LNPs (AL[a]),66 doxorubicin‐entrapped LNPs,65 methotrexate adsorbed on sugarcane bagasse soda lignin.77 | silica NPs,120, 121, 122 Ag NPs123, 124, 125, 126 | C nanodots,130 SWCNTs,128 crystalline fullerenes127 |
[a] SWCNTs—single‐walled carbon nanotubes; MWCNTs—multi‐walled carbon nanotubes. [b] Isolated from hydrothermally treated corn cobs.