Outputs (2)

Sustainable fertiliser mesh, ‘4D’-precision engineered by flow chemistry: minimising agrochemical pollution (2024)
Journal Article
Le, T. N. Q., Lim, C. N., Fisk, I., Tran, N. N., Hessel, V., & Robertson, K. (2025). Sustainable fertiliser mesh, ‘4D’-precision engineered by flow chemistry: minimising agrochemical pollution. Green Chemistry, 27(3), 696-715. https://doi.org/10.1039/d4gc04833d

Flow chemistry is best when opening “novel process windows”, and one of six NPW paths is “new chemical transformations”. Flow chemistry has a large impact on syntheses which are particularly mixing-sensitive. Here we exploit the NPW offered by flow c... Read More about Sustainable fertiliser mesh, ‘4D’-precision engineered by flow chemistry: minimising agrochemical pollution.

Microflow synthesis of a formulation of phosphorus fertiliser to enhance the P content in soil and P uptake in wheat (2023)
Journal Article
Nguyen Quang Le, T., Robertson, K., Escribà-Gelonch, M., Marschner, P., Nghiep Tran, N., Williams, P. M., Fisk, I., & Hessel, V. (2023). Microflow synthesis of a formulation of phosphorus fertiliser to enhance the P content in soil and P uptake in wheat. Green Chemistry, 25(22), 9422-9437. https://doi.org/10.1039/d3gc02859c

Highly soluble commercial phosphorus (P) fertilisers have been the most common form of P applied in agriculture for decades, but their releasing efficiency can be low because phosphate ions can easily bind with cations in the soil to form precipitate... Read More about Microflow synthesis of a formulation of phosphorus fertiliser to enhance the P content in soil and P uptake in wheat.