Abstract: An orthodontic appliance includes features for reducing friction between an interior of an archwire slot portion of the appliance and an archwire to be placed within the archwire slot. Other embodiments include a rounded exterior occlusal surface. Embodiments further include one or more receptacles for receiving an installation tool.

Abstract: A homogeneous ceria-based mixed-metal oxide, useful as a catalyst support, a co-catalyst and/or a getter has a relatively large surface area per weight, typically exceeding 150 m2/g, a structure of nanocrystallites having diameters of less than 4 nm, and including pores larger than the nanocrystallites and having diameters in the range of 4 to about 9 nm. The ratio of pore volumes, VP, to skeletal structure volumes, VS, is typically less than about 2.5, and the surface area per unit volume of the oxide material is greater than 320 m2/cm3, for low internal mass transfer resistance and large effective surface area for reaction activity. The mixed metal oxide is ceria-based, includes Zr and or Hf, and is made by a novel co-precipitation process. A highly dispersed catalyst metal, typically a noble metal such as Pt, may be loaded on to the mixed metal oxide support from a catalyst metal-containing solution following a selected acid surface treatment of the oxide support.

Abstract: A triple wing orthodontic bracket, bracket cover, and method of use is disclosed. The bracket has a slot liner for reducing friction between an archwire and the bracket, wherein the liner is flared at its ends. The bracket cover has: a rod-shaped hinge for rotating in recesses between a bracket base, and bracket wings on one of a gingival and occlusal bracket side, a slot cover, and a cross member for rotating the slot cover between covering a bracket archwire slot, and uncovering the slot, wherein the rotation pivots the hinge in the recesses. The hinge and recesses frictionally engage one another, wherein in a first position, the hinge attaches and detaches from the bracket, and after pivoting the hinge to another position in the recesses, the hinge is secured therein. Interaction between the hinge and the recesses may cause the slot cover to move to cover the slot.

Abstract: An orthodontic appliance includes features for reducing friction between an interior of an archwire slot portion of the appliance and an archwire to be placed within the archwire slot. Other embodiments include a rounded exterior occlusal surface. Embodiments further comprise one or more receptacles for receiving an installation tool.

Abstract: A convertible orthodontic bracket is disclosed, wherein an archwire slot therein has a removable slot covering, thereby allowing the bracket to serve as a buccal tube during a first stage of treatment and an edgewise bracket during a subsequent phase of treatment. The slot covering is removable by detaching the slot covering from the bracket body along one or more predetermined extents of weakness, wherein each such extent of weakness includes perforations or voids providing a passage between an exterior of the bracket and an interior of the first archwire slot.

Abstract: A homogeneous ceria-based mixed-metal oxide, useful as a catalyst support, a co-catalyst and/or a getter has a relatively large surface area per weight, typically exceeding 150 m2/g, a structure of nanocrystallites having diameters of less than 4 nm, and including pores larger than the nanocrystallites and having diameters in the range of 4 to about 9 nm. The ratio of pore volumes, VP, to skeletal structure volumes, VS, is typically less than about 2.5, and the surface area per unit volume of the oxide material is greater than 320 m2/cm3, for low internal mass transfer resistance and large effective surface area for reaction activity. The mixed metal oxide is ceria-based, includes Zr and or Hf, and is made by a novel co-precipitation process. A highly dispersed catalyst metal, typically a noble metal such as Pt, may be loaded on to the mixed metal oxide support from a catalyst metal-containing solution following a selected acid surface treatment of the oxide support.

Abstract: A homogeneous ceria-based mixed-metal oxide, useful as a catalyst support, a co-catalyst and/or a getter has a relatively large surface area per weight, typically exceeding 150 m2/g, a structure of nanocrystallites having diameters of less than 4 nm, and including pores larger than the nanocrystallites and having diameters in the range of 4 to about 9 nm. The ratio of pore volumes, VP, to skeletal structure volumes, VS, is typically less than about 2.5, and the surface area per unit volume of the oxide material is greater than 320 m2/cm3, for low internal mass transfer resistance and large effective surface area for reaction activity. The mixed metal oxide is ceria-based, includes Zr and or Hf, and is made by a novel co-precipitation process. A highly dispersed catalyst metal, typically a noble metal such as Pt, may be loaded on to the mixed metal oxide support from a catalyst metal-containing solution following a selected acid surface treatment of the oxide support.