A family of cobalt based dental alloys suitable for PFM and SLM applications that do not exhibit ferromagnetism and that are capable of meeting the ADA requirements for a “noble” alloy are provided. The dental alloys comprise at least 25 wt. % of noble metals selected from either platinum alone or a combination of platinum and ruthenium, and from 23 to 32 wt. % chromium. Additional additive materials may be included in concentrations up to 3 wt. %. The ruthenium optionally comprises up to 8 wt. %, and in some embodiments from at least 5 wt. % to 8 wt. % of the noble metals such that the dental alloys are capable of meeting the ADA requirements for a “noble” alloy.

The present invention relates to a kit of parts comprising Part A and Part B, Part A comprising: ascorbic acid, component(s) comprising an ascorbic acid moiety or derivative(s) thereof, optionally polymerizable component(s) without acidic moieties, optionally polymerizable component(s) with acidic moieties, and optionally filler(s), Part B comprising polymerizable component(s) without acidic moieties, polymerizable component(s) with acidic moieties, transition metal component(s), organic peroxide(s), and optionally filler(s), The invention is also directed to a redox initiator system comprising ascorbic acid, component(s) comprising an ascorbic acid moiety or derivative(s) thereof, transition metal component(s), preferably comprising a copper or iron ion containing salt, organic peroxide(s), preferably comprising a hydroperoxide or di-peroxide. The kit of parts and redox initiator system are particularly useful in the dental field.

The present invention relates to anti-microbially active micro and nanoparticles, compositions comprising same, and use thereof for inhibiting bacterial growth and biofilm formation on surfaces or devices, e.g., dental surfaces or devices. The present invention further discloses methods of making such anti-microbially active micro or nanoparticles.

The present invention relates to anti-microbially active micro and nanoparticles, compositions comprising same, and use thereof for inhibiting bacterial growth and biofilm formation on surfaces or devices, e.g., dental surfaces or devices. The present invention further discloses methods of making such anti-microbially active micro or nanoparticles.

A subject of the invention is a remineralizing dental material, having at least one cation and at least one anion, which are configured as partner ions for forming a remineralization substance. In accordance with the invention at least one of the partner ions is multivalent and is included as counterion in a coacervate. A further subject of the invention is a kit for producing such a dental material, and also the use thereof.

A subject of the invention is a remineralizing dental material, having at least one cation and at least one anion, which are configured as partner ions for forming a remineralization substance. In accordance with the invention at least one of the partner ions is multivalent and is included as counterion in a coacervate. A further subject of the invention is a kit for producing such a dental material, and also the use thereof.

A titanium dioxide (TiO.sub.2) composition and methods of use, the composition containing surface-modified doped TiO.sub.2 nanoparticles (sm-TiO.sub.2 NP.sub.s) disposed in a polymer matrix material, wherein each sm-TiO.sub.2 NP has an outer surface having a plurality N of bifunctional linker molecules attached thereto and a plurality of protein molecules linked to the sm-TiO.sub.2 NP via the bifunctional linker molecules; and wherein the polymer matrix comprises a polymer precursor component.

The invention relates to a dental post formed from a composite of fibers and a matrix material, wherein X-ray markers are embedded in the matrix material and the X-ray markers are formed from visible and/or UV light reflective material. According to another aspect of the invention, the X-ray markers are concentrated in a central region of the dental post. The dental post has very good mechanical properties and allows visible and/or UV light to pass through to cure an adhesive disposed on the dental post.

The present invention relates to a composition of an intracanal medication agent for medicating root canals for a predetermined period of time. According to one aspect of the invention, there is provided an intracanal medication composition based on a calcium hydroxide component, comprising: calcium hydroxide or a calcium hydroxide producing component as a powder component; and at least one of diethyl sulfoxide (DMSO), N-methyl-2-pyrrolidone (NMP) and diethylene glycol monoethyl ether (DEGEE) as a liquid component.

The present invention relates to a composition of an intracanal medication agent for medicating root canals for a predetermined period of time. According to one aspect of the invention, there is provided an intracanal medication composition based on a calcium hydroxide component, comprising: calcium hydroxide or a calcium hydroxide producing component as a powder component; and at least one of diethyl sulfoxide (DMSO), N-methyl-2-pyrrolidone (NMP) and diethylene glycol monoethyl ether (DEGEE) as a liquid component.