GRAND ERA

Brand	Owner	Address	Description
GRANDERA	GROHE AG	Industriepark Edelburg Hemer 58675 Germany	GRAND ERA;Apparatus for lighting, namely, electric lighting fixtures; plumbing fittings and plumbing fixtures for water supply, bath, shower, washing, rinsing, bidet and toilet installations and for water intake and drainage in these installations, namely, taps, drains, tub overflows, water mixers, mixer valves, control valves, shutter valves, shower mixing valves, faucets, hot water/cold water mixer faucets for water pipes, faucet sprayers, digital faucets, contact-controlled bath fittings, namely, faucets that can be operated with a single touch, automatic faucets, filters for preventing impurities in water, taps for sinks, wash stands, bath tubs, showers and bidets, showers, showerheads and components thereof, hand-held showers, overhead showers, shower sprayers, shower head sprayers, massage showers, holders in the nature of hand-held shower holders, shower head holders, and shower stands; shower columns, namely, shower panels, shower enclosures; complete shower and washing cubicles, with the aforesaid water supply and sanitary fittings being thermostat and non-contact controlled fittings, consisting of faucets, plumbing valves, shower systems consisting of shower panels, shower columns, spray nozzles, spray heads, hand-held showers, shower heads and components thereof, hand-held shower holders, shower faucet extensions, shower holders, and shower hoses, all sold as a unit; replacement parts for the aforesaid goods;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

The ability to design and construct solid-state materials with pre-determined structures is a grand challenge in chemistry. An inventive strategy based on reticulating metal ions and organic carboxylate links into extended networks has been advanced to a point that has allowed the design of porous structures in which pore size and functionality can be varied systematically. MOF-5, a prototype of a new class of porous materials and one that is constructed from octahedral Zn-O-C clusters and benzene links, was used to demonstrate that its 3-D porous system can be functionalized with the organic groups, -Br, -NH2, -OC3H7, -OC5H11, -H4C2, and -H4C4, and its pore size expanded with the long molecular struts biphenyl, tetrahydropyrene, pyrene, and terphenyl. The ability to direct the formation of the octahedral clusters in the presence of a desired carboxylate link is an essential feature of this strategy, which resulted in the design of an isoreticular (having the same framework topology) series of sixteen well-defined materials whose crystals have open space representing up to 91.1% of the crystal volume, and homogeneous periodic pores that can be incrementally varied from 3.8 to 28.8 angstroms. Unlike the unpredictable nature of zeolite and other molecular sieve syntheses, the deliberate control exercised at the molecular level in the design of these crystals is expected to have tremendous implications on materials properties and future technologies. Indeed, data indicate that members of this series represent the first monocrystalline mesoporous organic/inorganic frameworks, and exhibit the highest capacity for methane storage (155 cm