Biocompatibility is a key challenge for medical implants, so researchers have engineered apatite nanoparticles with enhanced ...

Hydroxide ions bind to boron ... remove boron by trapping it within pores lined with oxygen-containing structures that specifically bind to boron while allowing other ions to pass through.

Nevertheless, the sequenced structures obviously promote the hydrophilic ... the QPE-bl-2 and QPE-bl-1 membranes exhibited comparable hydroxide ion conductivities, as shown in Figure 4b.

These structures specifically bind with boron ... creating positive hydrogen ions and negative hydroxide ions. The hydroxide attaches to boron, giving it a negative charge that makes it stick ...

Medical implants have transformed health care, offering innovative solutions with advanced materials and technologies.

For these structures to function, boron must carry a negative charge. Rather than adding a chemical base, the system generates the charge by splitting water between two electrodes, producing positive ...

Medical implants and biomedical devices often cause inflammatory responses due to poor biocompatibility. Apatite coatings ...

These structures selectively bind boron while ... producing positive hydrogen ions and negative hydroxide ions. The hydroxide ions react with boron, giving it a negative charge that adheres ...

Researchers in Korea have successfully developed a new material that significantly enhances the efficiency of green hydrogen ...