Nanoparticles loaded with Daunorubicin as an advanced tool for cancer therapy.

Nowadays, with the advent of cutting-edge technologies in the field of biotechnology, some highly advanced medical methods are introduced to treat cancers more efficiently. In the chemotherapy processes, anti-cancer drugs can be encapsulated in a stimuli-responsive coating which is capable of being functionalized by diverse ligands to increase the biocompatibility and control drug release behavior in a targeted drug delivery system. Nanoparticles (NPs) are playing an important role as nanocarriers in chemotherapy procedures, recently, numerous novel drug delivery systems have been studied which employed diverse types of NPs with remarkable structural features like porous nanocarriers with active and extended surface areas to enhance the drug loading and delivery efficacy. In this study, Daunorubicin (DAU) as an effective anti-cancer drug for treating various cancers introduced, and its application for novel drug delivery systems either as a single chemotherapy agent or co-delivery alongside other drugs with diverse NPs has been reviewed.

Two-Dimensional Graphitic Carbon Nitride (g-C3N4) Nanosheets and Their Derivatives for Diagnosis and Detection Applications.

The early diagnosis of certain fatal diseases is vital for preventing severe consequences and contributes to a more effective treatment. Despite numerous conventional methods to realize this goal, employing nanobiosensors is a novel approach that provides a fast and precise detection. Recently, nanomaterials have been widely applied as biosensors with distinctive features. Graphite phase carbon nitride (g-C3N4) is a two-dimensional (2D) carbon-based nanostructure that has received attention in biosensing. Biocompatibility, biodegradability, semiconductivity, high photoluminescence yield, low-cost synthesis, easy production process, antimicrobial activity, and high stability are prominent properties that have rendered g-C3N4 a promising candidate to be used in electrochemical, optical, and other kinds of biosensors. This review presents the g-C3N4 unique features, synthesis methods, and g-C3N4-based nanomaterials. In addition, recent relevant studies on using g-C3N4 in biosensors in regard to improving treatment pathways are reviewed.