Atrazine
|
The herbicide would be delivered close to its site of uptake, enhancing efficiency and reducing the required dose |
[96] |
4-Chloro-2-Methylphenoxy Acetic Acid
|
Slow release of the herbicide reduces the hazardous effects that it can pose to the environment. |
[93] |
2,4-Dichlorophenoxyacetic Acid
|
A stronger and irreversible herbicidal effect on the test plants |
[94] |
2-Methyl-4-Chlorophenoxyacetic Acid
|
Higher loading of the AI herbicide and exhibits better adsorption properties |
[95] |
Camphorsulfonic Acid and Ciprofloxacin
|
Remarkable improvement in thermal stability |
[97] |
Cinnamic Acid
|
A green pesticide/plant growth regulator |
[98] |
Hexaconazole and Triadimenol
|
Loading amount of hexaconazole is higher than triadimenol in the LDHs nanohybrids |
[99] |
Imazamox
|
Decreasing water-pollution risk, maintaining efficacy with the advantages of soil compatibility. |
[100] |
Long-Chain (C-18) Unsaturated Fatty Acid Anions; Elaidate, Oleate, and Linoleate
|
Reduced affinity of the organo-LDHs to all pesticides, presumably because they lead to structures with reduced hydrophobicity compared to those resulting from the incorporation of linear organic anions. |
[101] |
Sulfamerazine and Salicylaldehyde
|
Offer good antimicrobial activity |
[102] |