Additive manufacturing or ‘3D printing’ is being developed as a novel manufacturing process for the production of bespoke micro- and milliscale fluidic devices. When coupled with online monitoring and optimisation software, this offers an advanced, customised method for performing automated chemical synthesis. This paper reports the use of two additive manufacturing processes, stereolithography and selective laser melting, to create multifunctional fluidic devices with embedded reaction monitoring capability. The selectively laser melted parts are the first published examples of multifunctional 3D printed metal fluidic devices. These devices allow high temperature and pressure chemistry to be performed in solvent systems destructive to the ...
This chapter reviews recent developments in the use of three‐dimensional (3D) printing or additive m...
The manufacturing of a three-dimensional product from a computer-driven digital model (3D printing) ...
This chapter reviews recent developments in the use of three‐dimensional (3D) printing or additive m...
Additive manufacturing or ‘3D printing’ is being developed as a novel manufacturing process for the ...
Additive manufacturing or ‘3D printing’ is being developed as a novel manufacturing process for the ...
Additive manufacturing or ‘3D printing’ is being developed as a novel manufacturing process for the ...
Additive manufacturing or ‘3D printing’ is being developed as a novel manufacturing process for the ...
Additive manufacturing or ‘3D printing’ is being developed as a novel manufacturing process for the ...
This thesis investigates the application of online monitoring for the optimisation of flow chemistry...
In recent years, the search for new synthetic methods has moved beyond the traditional quest for new...
3D printing of microfluidics is in its infancy but it is already demonstrating game-changing potenti...
This thesis aims to investigate the use of additive manufacturing (AM) as a novel manufacturing proc...
Microfluidic systems demonstrated to improve the analysis of biological and chemical processes by pr...
Microfluidic systems demonstrated to improve the analysis of biological and chemical processes by pr...
Additive Manufacturing is transforming how researchers and industrialists look to design and manufac...
This chapter reviews recent developments in the use of three‐dimensional (3D) printing or additive m...
The manufacturing of a three-dimensional product from a computer-driven digital model (3D printing) ...
This chapter reviews recent developments in the use of three‐dimensional (3D) printing or additive m...
Additive manufacturing or ‘3D printing’ is being developed as a novel manufacturing process for the ...
Additive manufacturing or ‘3D printing’ is being developed as a novel manufacturing process for the ...
Additive manufacturing or ‘3D printing’ is being developed as a novel manufacturing process for the ...
Additive manufacturing or ‘3D printing’ is being developed as a novel manufacturing process for the ...
Additive manufacturing or ‘3D printing’ is being developed as a novel manufacturing process for the ...
This thesis investigates the application of online monitoring for the optimisation of flow chemistry...
In recent years, the search for new synthetic methods has moved beyond the traditional quest for new...
3D printing of microfluidics is in its infancy but it is already demonstrating game-changing potenti...
This thesis aims to investigate the use of additive manufacturing (AM) as a novel manufacturing proc...
Microfluidic systems demonstrated to improve the analysis of biological and chemical processes by pr...
Microfluidic systems demonstrated to improve the analysis of biological and chemical processes by pr...
Additive Manufacturing is transforming how researchers and industrialists look to design and manufac...
This chapter reviews recent developments in the use of three‐dimensional (3D) printing or additive m...
The manufacturing of a three-dimensional product from a computer-driven digital model (3D printing) ...
This chapter reviews recent developments in the use of three‐dimensional (3D) printing or additive m...