The use of nanoparticles (NPs) in nanomedicine holds great promise for the treatment of
diseases for which conventional therapies present serious limitations. Additionally, NPs can …

Using light to control matter has captured the imagination of scientists for generations, as
there is an abundance of photons at our disposal. Yet delivering photons beyond the surface …

Iron oxide-based nanoparticles have gathered tremendous scientific interest towards their
application in a variety of fields. Magnetite has been particularly investigated due to its …

During the last two decades, 3D printing technology has emerged as a valid alternative for
producing microfluidic devices. 3D printing introduces new strategies to obtain high …

Cartilage degeneration is among the fundamental reasons behind disability and pain across
the globe. Numerous approaches have been employed to treat cartilage diseases …

Both passive and active microfluidic chips are used in many biomedical and chemical
applications to support fluid mixing, particle manipulations, and signal detection. Passive …

Droplet manipulation techniques such as transport and merging have been widely used in
many fields including biology, chemistry, material and energy applications. Moreover …

Paper-based microfluidic devices have emerged as powerful platforms for bioanalysis
offering advantages over other substrate materials including simpler fabrication protocols …

The advancement of microfluidics has enabled numerous discoveries and technologies in
life sciences. However, due to the lack of industry standards and configurability, the design …

Nanoparticles play irreplaceable roles in optoelectronic sensing, medical therapy, material
science, and chemistry due to their unique properties. There are many synthetic pathways …