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"A great #$%^ed up blend of James Bond and Tintin."--Keanu Reeves From New York Times bestselling Mind MGMT creator MATT KINDT and Quantum Age's WILFREDO TORRES comes a brand-new pulp-inspired tale of action, mystery, and altered reality. A best-of the-best secret agent with memories he couldn't possibly possess, a mystery writer in her 80s who spends her retirement solving crimes, a man of action with mysterious drugs that keep him ahead of a constant string of targeted disasters, a seemingly omnipotent terrorist organization that might be behind it all . . . And they're all connected to one man: a science-fiction author with more information than seems possible, whose books may hold the ke...
Matt Kindt! Wilfredo Torres! Dr. Queen, scientist extraordinaire, is on the cutting edge of technology, industry, and—with the help of her telepathically controlled super car—terrorist butt kicking. But when things go south in her attempt to take down a hacking supervillains diabolical plans, Queen finds that the lines between truth and fiction are blurred, and shes drafted into a war to save reality itself. ''BANG! is a fun, twisty spy thriller with a great meta-twist.''–Jay Faerber
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Coatings based on hydroxyapatite and calcium phosphates have a significant relevance in several research fields, such as biomaterials, cultural heritage, and water treatment, due to their characteristic properties. Hydroxyapatite can easily accommodate foreign ions, which can either be incorporated into the lattice, thanks to its specific lattice characteristics, or be adsorbed onto its surface. All these substitutions significantly alter the morphology, lattice parameters, and crystallinity of hydroxyapatite so they influence its main properties. These ion substitutions can be sought or can derive from substrate contaminations, which is an important aspect to be evaluated. Finally, this capability can be used to obtain hydroxyapatites with specific properties, such as antibacterial characteristics, among others. For these reasons, the aim of this Special Issue is to document current advances in the field of ion-substituted hydroxyapatites and highlight possible future perspectives regarding their use. Contributions in the form of original articles and review articles are presented, covering different areas of application.