Abstract: Pesticidal proteins (FFPP's) are used to produce derivatives (DP's) that are ineffective and disabled relative to conferring toxic properties upon a target pest, yet the ability of the DP to bind to the receptor to which said FFPP binds is unaffected. Such DP's are useful in inhibiting the FFPP from which it was derived when both are fed to a target pest and for comparing receptor binding capability and efficiency relative to different FFPP's from which the DP has been derived, providing for an assessment of different FFPP's relative to each other, and providing uniformity and certainty in combinations of such FFPP's for compositions, including transgenic plants, that can be used to control pest populations susceptible to both FFPP's, creating more durable transgenic plant products, inhibiting the development of resistance to such FFPP's when used in plants commercially, and in providing a durable and viable resistance management strategy for crops using such FFPP combinations.

Abstract: Pesticidal proteins (FFPP's) are used to produce derivatives (DP's) that are ineffective and disabled relative to conferring toxic properties upon a target pest, yet the ability of the DP to bind to the receptor to which said FFPP binds is unaffected. Such DP's are useful in inhibiting the FFPP from which it was derived when both are fed to a target pest and for comparing receptor binding capability and efficiency relative to different FFPP's from which the DP has been derived, providing for an assessment of different FFPP's relative to each other, and providing uniformity and certainty in combinations of such FFPP's for compositions, including transgenic plants, that can be used to control pest populations susceptible to both FFPP's, creating more durable transgenic plant products, inhibiting the development of resistance to such FFPP's when used in plants commercially, and in providing a durable and viable resistance management strategy for crops using such FFPP combinations.

Abstract: A method of using a crystallographic framework of sterically bulky calixarene molecules to selectively separate and/or store volatile gas components. Sterically bulky calix[4]arenes or their derivatives form a crystalline lattice that has relatively large lattice voids, is nonporous, and is held together predominately by van der Weals forces. The calix[4]arene lattice can form a guest-host assembly by absorbing a desired volatile gas guest component into the crystalline lattice without any phase shift or other change to the lattice structure. The crystalline calixarene can also be desirably used to purify a gas mixture by removing one or more volatile gas contaminants or by removing and storing the desired volatile gas component. This method can preferably be used to purify a hydrogen gas stream by removing the carbon dioxide and carbon monoxide contaminants or to remove and store oxygen from the air or carbon dioxide and carbon monoxide from combustion gases.

Abstract: A method of using a crystallographic framework of sterically bulky calixarene molecules to selectively separate and/or store volatile gas components. Sterically bulky calix[4]arenes or their derivatives form a crystalline lattice that has relatively large lattice voids, is nonporous, and is held together predominately by van der Waals forces. The calix[4]arene lattice can form a guest-host assembly by absorbing a desired volatile gas guest component into the crystalline lattice without any phase shift or other change to the lattice structure. The crystalline calixarene can also be desirably used to purify a gas mixture by removing one or more volatile gas contaminants or by removing and storing the desired volatile gas component. This method can preferably be used to purify a hydrogen gas stream by removing the carbon dioxide and carbon monoxide contaminants or to remove and store oxygen from the air or carbon dioxide and carbon monoxide from combustion gases.

Abstract: A guest host assembly comprising a host assembly formed of calixarene molecules and a guest component located within the host assembly. A crystallographic assembly of layers of the calixarene molecules and stacked along the crystallographic c axis of the assembly in a repeating configuration associated together predominantly by van der Waal forces. The guest component is transferable through the host assembly in a direction normal to the stacked layers. The calixarene molecules are configured in bilayers of adjacent layers along the c axis. The bilayers are shifted along the a or b axis so the assembly, relative to a corresponding assembly of the calixarene molecules without the inclusion of the guest component is shifted. The calixarene are calix(N)arenes in which N is an integer within the range of 4–8. The calixarene molecules are distally substituted with a substituent such as methyl, ethyl, propyl, butyl amyl or phenyl groups.

Abstract: A guest-host assembly having a generally spheroidal host assembly formed of trimers of calixarene molecules in a hexagonal close-packed assembly and its preparation. The calixarene trimers are associated together predominantly by van der Waals forces to provide dilated channels having void volumes within the range of 100-200 ?3. A guest component, such as hydrogen, methane, or another hydrocarbon or halocarbon, is encapsulated within the dilated channels of the spheroidal host assembly and retained within the channels primarily by van der Waals forces. The guest-host assembly is stable at a temperature of 150° C. or higher. The temperature at which the onset of the release of the guest component occurs is within the range of 150-300° C.

Abstract: A guest host assembly comprising a host assembly formed of calixarene molecules and a guest component located within the host assembly. A crystallographic assembly of layers of the calixarene molecules and stacked along the crystallographic c axis of the assembly in a repeating configuration associated together predominantly by van der Waal forces. The guest component is transferable through the host assembly in a direction normal to the stacked layers. The calixarene molecules are configured in bilayers of adjacent layers along the c axis. The bilayers are shifted along the a or b axis so the assembly, relative to a corresponding assembly of the calixarene molecules without the inclusion of the guest component is shifted. The calixarene are calix(N)arenes in which N is an integer within the range of 4-8. The calixarene molecules are distally substituted with a substituent such as methyl, ethyl, propyl, butyl amyl or phenyl groups.

Abstract: A guest-host assembly having a generally spheroidal host assembly formed of trimers of calixarene molecules in a hexagonal close-packed assembly and its preparation. The calixarene trimers are associated together predominantly by van der Waals forces to provide dilated channels having void volumes within the range of 100-200 Å3. A guest component, such as hydrogen, methane, or another hydrocarbon or halocarbon, is encapsulated within the dilated channels of the spheroidal host assembly and retained within the channels primarily by van der Waals forces. The guest-host assembly is stable at a temperature of 150° C. or higher. The temperature at which the onset of the release of the guest component occurs is within the range of 150-300° C.