3D printingDroplet-based microfluidicsRapid prototypingThe advent of microfluidics, especially with the integration of droplet-based systems, has led to significant innovations and outstanding applications in many fields. While this field of study has grown increasingly over the years, the conventional ...
One such emerging technology is three-dimensional printing (3DP), or additive manufacturing (AM). This technology has the potential to transform neuro-oncology by providing precise, patient-specific anatomical models that enhance pre-operative planning. Surgeons can use these models to better visualise...
Meanwhile, along with recent developments in precision medicine approaches, 3D printing techniques such as laser-based systems through the photopolymerization pathway, nozzle-/syringe-based extrusion systems, and jetting-based systems have been extensively used in the biomedical field over the past 10 yea...
The recent developments on the application of these novel techniques, their penetration in the industry, and their barriers for the further adaptation will be extensively discussed in this overview. Introduction Microfluidics, mesofluidics, and lab-on-a-chip technologies have the potential to expedite...
Traditional manufacturing methods have become obsolete nowadays with the evolution of 3D printing. 3D printing has provided a totally new paradigm to moder
ReviewRecent developments in interface engineering strategies for stabilizing sodium metal anodes Author links open overlay panelYuan Liu 1 2, Jinlin Yang 2, Meng Wang 1 2, Zejun Sun 2, Chonglai Jiang 1 2, Yuxiang Niu 2, Wei Chen 1 2 3Show more Add to Mendeley Share Cite https://doi....
Various architectures (e.g., 1D fibrous, 2D planar, and 3D stereo) of MSCs can be constructed by corresponding flexible electrodes. This review summarizes recent novel technologies in fabrication of flexible electrodes and their applications in MSCs. Prospects for future developments of MSCs are ...
Though there are great developments in 3D food printing, the industry has many challenges to overcome. Most ingredients must be changed to a dry powder(粉末) before a printer can use them, and the printing process takes a lot of time, because ingredients interact (相互作用)with each other in...
Addressing these technological complexities requires an integrated approach involving expertise from different areas of science and engineering with lateral thinking. In this review, we highlight the recent trends in 3D bioprinting of tissues and organs including recent developments in usage of material, ...
Clinical and Experimental Medicine (2025) 25:33 https://doi.org/10.1007/s10238-024-01540-8 REVIEW Recent developments and future directions in point‑of‑care next‑generation CRISPR‑based rapid diagnosis Youssef M. Hassan1 · Ahmed S. Mohamed2 · Yaser M...