Details of studies showing beneficial effects of silicon nanoparticles (SiNPs) on plant growth and stress tolerance in Si accumulators, non-accumulators and intermediatesa.
| S. no. | Plant species | Size of SiO2-NPs used | Positive effects on plant growth/stress tolerance | Accumulator/non-accumulator/intermediate | Reference |
|---|---|---|---|---|---|
| 1 | Banana | 20–35 nm | Drought and salt tolerance | Accumulator | 120 |
| 2 | Barley | 20–30 nm | Drought tolerance | Intermediate | 121 |
| 3 | Basil | 20–30 nm | Salt tolerance | Intermediate | 122 |
| 4 | Coriander | 20–35 nm | Heavy metal tolerance | Intermediate | 123 |
| 5 | Cucumber | 10 nm | Drought and salt tolerance | Intermediate | 124 |
| 6 | Cumin | 10–20 nm | Drought tolerance | Intermediate | 125 |
| 7 | Faba bean | 40 nm | Salt tolerance | Non-accumulator | 126 |
| 8 | Faba bean | 10 nm | Enhanced seed germination and growth | Non-accumulator | 127 |
| 9 | Faba bean | 10 nm | Salt tolerance | Non-accumulator | 128 |
| 10 | Lentil | 20–30 nm | Salt tolerance | 129 | |
| 11 | Maize | ∼170 | Arsenic and oxidative stress tolerance | Accumulator | 83 |
| 12 | Maize | 5–15 nm | Aluminum tolerance | Accumulator | 130 |
| 13 | Mango | 5–15 nm | Salt tolerance | Accumulator | 101 |
| 14 | Oat | 20–30 nm | Multiple trait improvement | Intermediate | 65 |
| 15 | Pea | ∼170 | Chromium tolerance | Intermediate | 79 |
| 16 | Potato | 50 nm | Salt tolerance | Non-accumulator | 131 |
| 17 | Pumpkin | 12 nm | Salt tolerance | Intermediate | 132 |
| 18 | Rice | 230.4 nm | Fluoride tolerance | Accumulator | 133 |
| 20 | Rice | 20–30 nm | Heavy metal tolerance | Accumulator | 134 |
| 21 | Rice | 30–40 nm | Cadmium tolerance | Accumulator | 135 |
| 22 | Rice | 30–40 nm | Arsenic tolerance | Accumulator | 77 |
| 23 | Rice | 30–60 nm | Salt tolerance | Accumulator | 76 |
| 24 | Strawberry | 10–20 nm | Salt tolerance | Non-accumulator | 136 |
| 25 | Sugarbeet | 20–30 nm | Drought tolerance | 137 | |
| 26 | Sunflower | 20–30 nm | Seed germination | Non-accumulator | 96 |
| 27 | Tomato | 20 nm | Salt tolerance | Non-accumulator | 95 |
| 28 | Tomato | 5–15 nm | Salt tolerance | Non-accumulator | 138 |
| 29 | Tomato | 5–15 nm | Weed protection | Non-accumulator | 92 |
| 30 | Tomato | 5–15 nm | Arsenic tolerance | Non-accumulator | 91 |
| 31 | Tomato | 5–15 nm | Root-knot nematode resistance | Non-accumulator | 139 |
| 32 | Tomato | 5–15 nm | Salt tolerance | Non-accumulator | 140 |
| 33 | Tomato | 5–15 nm | Salt tolerance | Non-accumulator | 138 |
| 34 | Wheat | <50 nm | UV-B stress tolerance | Intermediate | 104 |
| 35 | Wheat | <50 nm | Cadmium tolerance | Intermediate | 28 |
| 36 | Wheat | <50 nm | Cadmium tolerance | Intermediate | 141 |
| 37 | Wheat | <50 nm | Cadmium tolerance | Intermediate | 142 |
| 38 | Wheat | <50 nm | Heat tolerance | Intermediate | 143 |
| 39 | Wheat | <50 nm | Plant growth and physiological traits | Intermediate | 144 |
a
Silicon-dioxide nanoparticles (SiO2-NPs).