3D printing for chemical, pharmaceutical and biological applications
Abstract 3D printing is becoming increasingly prevalent in modern chemistry laboratories.
This technology provides chemists with the ability to design, prototype and print functional …
This technology provides chemists with the ability to design, prototype and print functional …
3D-printed biosensor arrays for medical diagnostics
M Sharafeldin, A Jones, JF Rusling - Micromachines, 2018 - mdpi.com
While the technology is relatively new, low-cost 3D printing has impacted many aspects of
human life. 3D printers are being used as manufacturing tools for a wide variety of devices in …
human life. 3D printers are being used as manufacturing tools for a wide variety of devices in …
3D printed graphene electrodes' electrochemical activation
Three-dimensional (3D) printing technologies are emerging as an important tool for the
manufacturing of electrodes for various electrochemistry applications. It has been previously …
manufacturing of electrodes for various electrochemistry applications. It has been previously …
Nanoscale electrochemical mapping
Surfaces and interfaces, of both practical and fundamental interest, have long been
recognized to be complex, yet while there are many microscopy and spectroscopy methods …
recognized to be complex, yet while there are many microscopy and spectroscopy methods …
A scientist's guide to buying a 3D printer: how to choose the right printer for your laboratory
The use of 3D printing in research and teaching has significantly grown in the past years
and has had a major impact on scientific practices. Despite the growing adoption driven by …
and has had a major impact on scientific practices. Despite the growing adoption driven by …
3D printed electrodes design and voltammetric response
The limiting aspects in the voltammetric response of 3D printed electrodes is thoroughly
investigated with numerical simulations and new 3D printed electrode designs. Severe …
investigated with numerical simulations and new 3D printed electrode designs. Severe …
[HTML][HTML] The capacitance and electron transfer of 3D-printed graphene electrodes are dramatically influenced by the type of solvent used for pre-treatment
Abstract 3D-printing (or additive manufacturing) is presently an emerging technology that
promises to reshape traditional manufacturing processes. The electrochemistry field can …
promises to reshape traditional manufacturing processes. The electrochemistry field can …
Fused deposition modeling (FDM) based 3D printing of microelectrodes and multi-electrode probes
Electrode fabrication is one of the basic practices for electrochemists. Especially,
microelectrodes are generally known as “hand-made” and their fabrication is often like an …
microelectrodes are generally known as “hand-made” and their fabrication is often like an …
[PDF][PDF] Preparation of MgO-CaO/SiO2 catalyst from dolomite and geothermal solid waste for biodiesel production.
W Widayat, NT Maheswari, W Fitriani… - International Journal of …, 2023 - academia.edu
Energy demand will increase along with the increase in population. The current energy
demand is dominated by non-renewable energy as it could reduce dependence on fossil …
demand is dominated by non-renewable energy as it could reduce dependence on fossil …
Atomic layer deposition as a general method turns any 3D‐printed electrode into a desired catalyst: Case study in photoelectrochemisty
Abstract 3D‐printing technologies have begun to revolutionize many manufacturing
processes, however, there are still significant limitations that are yet to be overcome. In …
processes, however, there are still significant limitations that are yet to be overcome. In …