Agnese Piovesan
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View article: Innovative Fabrication of Hollow Microneedle Arrays Enabling Blood Sampling with a Self-Powered Microfluidic Patch
Innovative Fabrication of Hollow Microneedle Arrays Enabling Blood Sampling with a Self-Powered Microfluidic Patch Open
Microneedles are gaining a lot of attention in the context of sampling cutaneous biofluids such as capillary blood. Their minimal invasiveness and user-friendliness make them a prominent substitute for venous puncture or finger-pricking. A…
View article: Microfluidic Devices: 3D Printing of Monolithic Capillarity‐Driven Microfluidic Devices for Diagnostics (Adv. Mater. 25/2021)
Microfluidic Devices: 3D Printing of Monolithic Capillarity‐Driven Microfluidic Devices for Diagnostics (Adv. Mater. 25/2021) Open
Rapid diagnostic testing at the site of the patient is essential when a fully equipped laboratory is not accessible. In article number 2008712, Rob Ameloot and co-workers present a novel powder-based 3D-printing method that enables monolit…
View article: Designing Mechanical Properties of 3D Printed Cookies through Computer Aided Engineering
Designing Mechanical Properties of 3D Printed Cookies through Computer Aided Engineering Open
Additive manufacturing or 3D printing can be applied in the food sector to create food products with personalized properties such as shape, texture, and composition. In this article, we introduce a computer aided engineering (CAE) methodol…
View article: Author Correction: Amylose molecular fine structure dictates water–oil dynamics during deep-frying and the caloric density of potato crisps
Author Correction: Amylose molecular fine structure dictates water–oil dynamics during deep-frying and the caloric density of potato crisps Open
View article: Correction: 4D synchrotron microtomography and pore-network modelling for direct <i>in situ</i> capillary flow visualization in 3D printed microfluidic channels
Correction: 4D synchrotron microtomography and pore-network modelling for direct <i>in situ</i> capillary flow visualization in 3D printed microfluidic channels Open
Correction for ‘4D synchrotron microtomography and pore-network modelling for direct in situ capillary flow visualization in 3D printed microfluidic channels’ by Agnese Piovesan et al., Lab Chip, 2020, 20, 2403–2411, DOI: 10.1039/D0LC00227…
View article: CONTOURING OF TITANIUM SPINAL RODS: FINITE ELEMENTS COMPARATIVE ANALYSIS OF DIFFERENT TECHNIQUES
CONTOURING OF TITANIUM SPINAL RODS: FINITE ELEMENTS COMPARATIVE ANALYSIS OF DIFFERENT TECHNIQUES Open