This technique is particularly useful for preparing polymeric nanoparticles, but it can also be applied to other materials such as lipids and inorganic compounds. Diagram illustrating the ...

Charged nanoparticles can alter the local physical properties of lipid membranes, which could shed new light on the interactions between living cells and nanomaterials. An emerging 'rule of thumb ...

Every time a shuttle docks with the International Space Station (ISS), a delicate dance unfolds between the shuttle's docking ...

Lipid nanoparticles (LNPs) transport small molecules into the body. The most well-known LNP cargo is mRNA, the key constituent of some of the early vaccines against COVID-19. But that is just one ...

Function-engineerable nanoparticles in combination with the advantageous effects of various functional lipid components enable achievement of enhanced blood stability, decreased toxicity and ...

LNPs are solid or semi-solid particles at room temperature. They are composed of a lipid core stabilized by surfactants or other agents. This lipid core provides a hydrophobic environment ideal for ...

Lipid nanoparticles (LNPs) are primed to revolutionize the development of nucleic acid therapies. The trusted lipid experts at Cayman Chemical provide industry-leading solutions for every stage of LNP ...

Lipid nanoparticles containing acid degradable lipids transfected multiple non-liver organs after an intravenous injection and efficiently transfected brain tissue after an intracranial injection. The ...

Their distinctive properties such as innate stability, low immunogenicity, biocompatibility, and excellent tissue or cell penetration capabilities allow them to function as superior natural ...

The recent success of the mRNA-LNP vaccines fueled biopharma to explore lipid-based nanoparticles for advanced drug delivery. The industry is now poised to exploit the full therapeutic potential ...