Nanotechnology is becoming increasingly important in the development of cancer treatments. Clinicians, on the other hand, must comprehend it to succeed.
Due to their high porosity, vast surface area, and ample inner void space, hollow structured nanomaterials have promise in the sectors of adsorption, catalysis, energy storage, and medication delivery/controlled release.
New investigations were made to uncover where the active sites are located in Oxygen Reduction Reactions (ORR).
By Shaheer Rehan
22 Apr 2022
A new method for fluorescent labeling of nanoscale cellulose for use in microscopy applications.
By Shaheer Rehan
22 Apr 2022
Authors reported a nanoplatform applied to treat non-small cell lung cancer-spinal metastasis (NSCLC-SM).
By Bhavna Kaveti
22 Apr 2022
Molybdenum disulfide/graphene oxide quantum dot (MoS2/GOQD) nanocomposite films are explored as sensing materials in humidity sensors.
By Samudrapom Dam
22 Apr 2022
Researchers focus on creating a multifunctional sensor based on CPCs consisting of thermoplastic polyurethane and carbon nanotubes.
By Hussain Ahmed
21 Apr 2022
CVD was used to produce a nanometric hexagonal boron nitride coating on the cambered sides of every fiber in graphene glass fiber fabric.
By Shaheer Rehan
21 Apr 2022
Characterization of nanotube aggregation as a vital material property and the investigation of its effect on cellular interactions is presented in a study.
By Shaheer Rehan
21 Apr 2022
According to Rutgers University scientists who study factors that cause low-birth-weight babies, inhaled nanoparticles—human-made specks so small they cannot be seen in conventional microscopes and found in thousands of everyday products—can cross a natural, protective layer that normally protects fetuses.
Due to the attractive properties in boosting light absorption, electron transport dynamics, and surface reactions, graphene (GR)—a single-layer carbon sheet with a hexagonally packed crystalline lattice—has shown promising potential in artificial photocatalysis.
Authors showed that two-dimensional (2D) transition metal dichalcogenides (TMDs) triggered trained immunity in macrophages derived from primary human monocytes.
By Susha Cheriyedath
21 Apr 2022
For millennia, DNA has played a central role in storing each cell's genetic information and consists of strands with a specific sequence of four different building blocks. These DNA strands are copied by the cell at each cell division in an extremely well-orchestrated way, but amazingly, this sophisticated machinery is governed by very simple rules.
Drugmakers have been using genetically modified cells as small drug factories for over 40 years. These cells can be instructed to produce chemicals that can be utilized to treat cancer and autoimmune diseases like arthritis.
Scientists develop a modular biotin-streptavidin assembly of nanocomposites for intracellular cytosolic protein delivery.
By Samudrapom Dam
21 Apr 2022