Amorphous silica nanoparticle (SiNPs) has tremendous potential for a host of applications,
while its mass production, broad application and environmental release inevitably increase …

Over the past decade, nanopesticide has been developed rapidly for exploring effective and
safe alternatives to conventional pesticides with significant drawbacks and risks. Many …

One of the unmet challenges in nanotechnology is to understand and establish the
relationship between physicochemical properties of nanoparticles (NPs) and its biological …

The complement and coagulation systems are two related protein cascades in plasma that
serve important roles in host defense and hemostasis, respectively. Complement activation …

Intranasal drug delivery is as a noninvasive and efficient approach extensively utilized for
treating the local, central nervous system, and systemic diseases. Despite numerous …

Transmucosal drug delivery includes the administration of drugs via various mucous
membranes, such as gastrointestinal, nasal, ocular, and vaginal mucosa. The use of …

Nanomaterials can get into the blood circulation after injection or by release from implants
but also by permeation of the epithelium after oral, respiratory or dermal exposure. Once in …

Silicon is one of the most widely used chemical materials, and the increasing use of silica
nanoparticles (SNs) highlights the requirement for safety and biological toxicity studies. The …

Exposure to amorphous silica nanoparticles (SiNPs) has increased dramatically, and
concerns are growing about their potential health effects. However, their long-term systemic …

Amorphous silica nanoparticles (SiNPs) have been widely used and mass-producted due to
its unique properties. With the life cycle of SiNPs-based products, SiNPs are further released …