Drug molecules transformed into nanoparticles or endowed with nanostructures with or
without the aid of carrier materials are referred to as “nanomedicines” and can overcome …

Mesoporous silica nanoparticles (MSNs) have received increasing interest due to their
tunable particle size, large surface area, stable framework, and easy surface modification …

The design of internal stimuli-responsive nanocarriers has been extensively used for
delivery of various active compounds including drugs, peptides and genes. These …

Cancer treatment and therapy have made significant leaps and bounds in these past
decades. However, there are still cases where surgical removal is impossible, metastases …

Nanoparticles offer numerous advantages in various fields of science, particularly in
medicine. Over recent years, the use of nanoparticles in disease diagnosis and treatments …

Conventional drugs used for cancer chemotherapy have severe toxic side effects and show
individually varied therapeutic responses. The convergence of nanotechnology, biology …

Vectors and carriers play an indispensable role in gene therapy and drug delivery. Non-viral
vectors are widely developed and applied in clinical practice due to their low …

This study introduces a mesoporous magnetic nano-system for the delivery of apigenin
(API). A targeted therapeutic drug delivery system was prepared based on Fe 2 O 3/Fe 3 O …

The recent progress in nanoparticle applications, such as tumor-targeting, has enabled
specific delivery of chemotherapeutics to malignant tissues with enhanced local efficacy …

Mesoporous silica nanoparticles (MSNs) are excellent nanocarriers, featuring very high
cargo capacity due to their large surface area and pore volume. The particle and pore …