Abstract: A class of modified single-ring cyanate esters which have shown the ability to tailor and control the glass-transition (Tg) of the cured resins as well as the water uptake.

Abstract: A silanized surface, stable selective dehydration catalyst for dienes production, a method for producing a silanized surface, stable, selective dehydration catalyst, and a method for dehydrating at least one of an alkenol and a diol to a diene. The present invention also relates to the fermentation of sugars to afford bio-alkenols that are then separated and converted to a diene using a dehydration catalyst and a method for converting alkenols or diols to dienes with high selectivity and conversion. The dienes are useful in preparing synthetic rubber, plastics copolymers, and fuels.

Abstract: A vanillin is found to be a useful starting material for preparing new monomers that can be further applied to make high Tg composite resins that are in turn useful for making composite parts.

Abstract: A class of modified single-ring cyanate esters which have shown the ability to tailor and control the glass-transition (Tg) of the cured resins as well as the water uptake.

Abstract: An improved process and apparatus for the selective reaction of terpenes (including mono-, sesqui-, di-terpenes, and others in the terpene family), alpha-olefin oligomers (OOA's), and related olefins to their respective dimeric product in high purity using heterogeneous acid catalyst concurrent with full utilization of energy created in the process. Embodiments of the invention carry out a unique and highly efficient dimerization of terpenes, alpha-olefin oligomers (OOA's), and olefins using cost effective catalysts and low cost equipment that are ideally suited for commercialization of jet/turbine and diesel biofuel processes producing fuels with high flashpoints and superb cold flow properties.

Abstract: Acyclic monterpene alcohols, like linalool, to be converted through a series of highly efficient catalytic reactions a biogasoline blending component, and a drop-in biodiesel fuel.

Abstract: A method and apparatus for dehydrating bio-1-alcohols to bio-1-alkenes with high selectivity. The bio-1-alkenes are useful in preparing high flashpoint diesel and jet biofuels which are useful to civilian and military applications. Furthermore, the bio-1-alkenes may be converted to biolubricants useful in the transportation sector and other areas requiring high purity/thermally stable lubricants.

Abstract: A renewable biofuel based on a highly efficient batch catalysis methodology for conversion of 1-butene to a new class of potential jet fuel blends. By tuning the catalyst and then using the dimer produced, the carbon use is about 95% or greater. This latter point will be particularly important in the future, where the source of raw materials (i.e., biomass/biofeedstock) is limited.

Abstract: A class of modified single-ring cyanate esters which have shown the ability to tailor and control the glass-transition (Tg) of the cured resins as well as the water uptake.

Abstract: Embodiments of the invention relate to the synthesis of CL-20 using only a three step synthesis and because of increased catalyst activity and lifetimes, a continuous flow process can be used with a tremendous reduction in total cost of producing CL-20.

Abstract: An efficient synthesis of polymer end-caps and poly-p-phenylene oligomers that absorb little water and provide new processing and curing strategies, and more specifically, high-performance resins and adhesives with low moisture uptake can have a two stage cure path with an unprecedented range of curing temperatures.

Abstract: A formulation and methods for making formulation of a series of oligomeric silsesesquioxane (OS) diamine monomers which have been synthesized and purified in a highly time, energy, and atom efficient manner.

Abstract: A biomass is used to prepare bio-acetone which is converted to bio-mesitylene in high chemical yield and selectivity and the latter is converted using continuous flow chemical processes to a variety of functionalized bioaromatics that are useful in the preparation of high performance biopolymers, biocomposites, bio-explosives, and bio-adhesives.

Abstract: Acyclic monterpene alcohols, like linalool, to be converted through a series of highly efficient catalytic reactions a biogasoline blending component, and a drop-in biodiesel fuel.

Abstract: An approach that permits continuous batch conversion of alpha-olefins and internal-olefins to oligomeric materials without fouling the reaction vessel and provides a simple and highly efficient method for making very cost effective catalyst systems based on Zeigler-Natta Group 4 metallocenes. Embodiments of this invention produce diesel and turbine fuels that are 100% synthetic iso-paraffinic kerosenes with flashpoints greater than 61 deg C.

Abstract: A method and apparatus for dehydrating bio-1-alcohols to bio-1-alkenes with high selectivity. The bio-1-alkenes are useful in preparing high flashpoint diesel and jet biofuels which are useful to civilian and military applications. Furthermore, the bio-1-alkenes may be converted to biolubricants useful in the transporation sector and other areas requiring high purity/thermally stable lubricants.

Abstract: A method/fuels for making high-density, high-octane fuels, the high-density, high-octane including, dimerizirig terpene monomer(s), crude mixture of terpene(s), and/or oxygenated terpenoid(s) with at least one heterogeneous dimerization acid catalyst at temperatures ranging from about 25° C. to about 160° C. to produce a mixture of residual/isomerized monomer(s) cymene(s), and terpene dimer(s), hydrogenating the mixture of residual/isomerized monomer(s), p-cymene(s), and terpene dimer(s) with at least one heterogenous catalyst(s) under a hydrogen atmosphere to produce a hydrogenated mixture of cymene(s), saturated cyclic molecules of terpene(s), other aromatic(s), and/or saturated terpene dimer(s), and isolating the hydrogenated mixture of cymene(s), saturated cyclic terpene(s), other aromatic(s), and saturated terpene dimer(s) by fractional distillation to yield a high boiling fraction composed of terpene dimers and mixture low boiling fraction composed of hydrogenated monomer(s) and cymenes.

Abstract: A method and apparatus for dehydrating bio-1-alcohols to bio-1-alkenes with high selectivity. The bio-1-alkenes are useful in preparing high flashpoint diesel and jet biofuels which are useful to civilian and military applications. Furthermore, the bio-1-alkenes may be converted to biolubricants useful in the transportation sector and other areas requiring high purity/thermally stable lubricants.

Abstract: A process for making diesel and turbine fuels including, providing an effective amount of branched olefins, adding active heterogeneous acid catalyst(s) to said branched olefins to produce a solvent-free mixture, heating said solvent-free mixture greater than about 100° C. for a desired amount of time depending on various conditions, to produce C16 dimers/catalyst mixture, removing said catalysts from said dimers/catalyst mixture, and adding hydrogenation catalyst(s) to said dimers under hydrogen atmosphere to produce a mixture of stable fuels.

Abstract: A process for making diesel and turbine fuels including, providing an effective amount of branched olefins, adding active heterogeneous acid catalyst(s) to said branched olefins to produce a solvent-free mixture, heating said solvent-free mixture greater than about 100° C. for a desired amount of time depending on various conditions, to produce C16 dimers/catalyst mixture, removing said catalysts from said dimers/catalyst mixture, and adding hydrogenation catalyst(s) to said dimers under hydrogen atmosphere to produce a mixture of stable fuels.