Abstract: Spin coating apparatuses for applying liquid to substrates include pressure vessels having enclosed chambers therein, holders for rotating substrates positioned in the enclosed chambers, liquid dispensers positioned in the enclosed chambers for depositing a carbon dioxide liquid on the substrates, and pressure reservoirs in fluid communication with the liquid dispensers for storing a carbon dioxide liquid.

Abstract: A spin coating method comprises applying a carbon dioxide liquid to surface portion of a substrate; and then rotating the substrate about an axis to distribute the carbon dioxide liquid on the substrate. The carbon dioxide liquid can be distributed on the substrate as a carrier, for the purpose of depositing a material such as a coating on the substrate. In addition, the carbon dioxide liquid can be distributed on the substrate as a solvent, for the purpose of solubilizing, dissolving or removing a material previously deposited on the surface of the substrate. Apparatus for carrying out the present invention is also disclosed.

Abstract: A method of spin cleaning a substrate applying a carbon dioxide liquid to a surface portion of a substrate, rotating the substrate about an axis to distribute the carbon dioxide liquid on the substrate, and cleaning the substrate by virtue of applying the carbon dioxide liquid to the substrate.

Abstract: A method for the enzymatic production of a desired product in a liquid or supercritical carbon dioxide fluid. The method comprises: (a) providing a reaction mixture comprising at least one reaction substrate and a crosslinked enzyme crystal catalyst in a liquid or supercritical carbon dioxide fluid; and (b) reacting said substrate with said crosslinked enzyme crystal catalyst in said carbon dioxide fluid to produce said product. The reacting step is typically followed by the step of (c) separating the product from said reaction mixture.

Abstract: Peptides that have domains that bind to recombinant factor VIII (rFVIII) are disclosed. A method of rFVIII binding assay using the peptides deduced from a combinatorial library in a filtration plate process is described. A method of using peptides having these available binding domains in an affinity chromatography process to purify factor VIII is also taught.

Abstract: A method of protecting a civil infrastructure substrate from the damaging effects of pollution, noxious fumes, weather, and the like. The method comprises (a) providing a composition comprising carbon dioxide and a fluorocarbon such as a fluoropolyether (preferably a perfluoropolyether) or a fluorocarbon elastomer, optionally having at least one anchoring group such as an amide covalently joined thereto, and then (b) applying that composition to the civil infrastructure substrate to form a protective coating thereon. The applying step is preferably carried out by spraying. Compositions useful for carrying out the process of the invention are also disclosed.

Abstract: A method of coating a substrate comprises immersing a surface portion of a substrate in a liquid or supercritical first phase. The first phase comprises carbon dioxide and a coating component such as a polymer. The substrate is then withdrawn from the first phase into a distinct second phase such as a gas atmosphere so that the coating component is deposited on said surface portion. The withdrawal step is followed by separating the carbon dioxide from the coating component (e.g., by evaporation, venting, heating, etc.) so that the coating component is retained as a coating layer formed on the surface portion. Apparatus for carrying out the method by free meniscus coating, or employing a metering element such as a knife, blade, or roll, are also disclosed.

Abstract: A spin coating method comprises applying a carbon dioxide liquid to surface portion of a substrate; and then rotating the substrate about an axis to distribute the carbon dioxide liquid on the substrate. The carbon dioxide liquid can be distributed on the substrate as a carrier, for the purpose of depositing a material such as a coating on the substrate. In addition, the carbon dioxide liquid can be distributed on the substrate as a solvent, for the purpose of solubilizing, dissolving or removing a material previously deposited on the surface of the substrate. Apparatus for carrying out the present invention is also disclosed.

Abstract: Peptides which bind to alpha-1 Proteinase inhibitor (AlPI) are disclosed. The peptides have an available AlPI binding domain which may be any of the following preferred sequences: Val Ile Trp Leu Val Arg, Ile Ile Trp Leu Tyr Lys, Arg Tyr Arg Ile Phe Ile, Arg Ala Phe Trp Tyr Ile, Arg Phe Ile Tyr Tyr Thr, Tyr Lys Phe Arg Phe Trp, Leu Ile Val His Arg Trp, Pro Tyr Trp Ile Val Arg, Ala Arg Trp Tyr Ile His, Gln Tyr His Phe Trp Tyr, Arg Leu Trp Arg Tyr Gly, Val Ile Tyr Leu Val Arg, Val Ile Phe Leu Val Arg, Lys Ile Phe Leu Val Arg, Arg Ile Phe Leu Val Arg, His Ile Phe Leu Val Arg, Arg Val Leu Phe Ile Val, or Arg Val Leu Phe Ile His (SEQ ID NOS: 1-8, 10, 11, 15, 36, 37, 45, 46, 47, 61, and 62 respectively). A method of using peptides having these available binding domains in an affinity chromatography process to purify AlPI is described.

Abstract: The present invention provides methods of treating or clarifying a turbid wastewater containing at least one contaminant selected from the group consisting of proteinaceous materials, fats, oils, and other biological contaminants. The methods of the present invention include the steps of (a) contacting turbid wastewater to cellulose ester fibrets under conditions sufficient to flocculate the contaminant to form a treatment suspension, and then (b) separating the flocculants from the treatment suspension to provide a clarified wastewater.

Abstract: Competitive and sandwich-type immunodiagnostic assays can be configured by use of liposomes carrying detectible markers (e.g., fluorophores) or catalysts thereof (e.g., enzymes) on the outer liposome surface. The liposome also contains at least one antigen or antibody allowing it to bind to a complementary, immobilized antibody or antigen on a support.

Abstract: Surfactants bound to a ligand and dissolved in a single phase aqueous solution form a precipitate when a multivalent antiligand is added to the solution. This invention can be used in an affinity precipitation test procedure (and kit) for detecting the presence or absence of a multivalent antiligand in a sample suspected of containing the multivalent antiligand, in an affinity precipitation inhibition test procedure (and kit) for detecting the presence or absence of a target ligand in a sample suspected of containing the target ligand, and in a process for separating a multivalent antiligand from a crude material containing the multivalent antiligand.

Abstract: Surfactants bound to a ligand and dissolved in a single phase aqueous solution form a precipitate when a multivalent antiligand is added to the solution. This invention can be used in an affinity precipitation test procedure (and kit) for detecting the presence or absence of a multivalent antiligand in a sample suspected of containing the multivalent antiligand, in an affinity precipitation inhibition test procedure (and kit) for detecting the presence or absence of a target ligand in a sample suspected of containing the target ligand, and in a process for separating a multivalent antiligand from a crude material containing the multivalent antiligand.

Abstract: A chromatography apparatus incorporating an improved means for connecting the ligand to the solid support is disclosed. The apparatus comprises a chamber containing a solid support. The solid support is a hydrophobic support. The apparatus includes chromatography surfactants bonded to the solid support. The surfactants comprise a polar group, a hydrophobic functional group substituted on the polar group, and a chromatographic functional group substituted on the polar group. The hydrophobic group is hydrophobically adsorbed to the solid support so that the chromatographic functional group is bound to the solid support and available for binding to compounds which selectively bind thereto. Compositions for and methods of making the foregoing are disclosed.The chromatographic functional group is a ligand for affinity chromatography, an ionogenic group for ion exchange chromatography, or a hydrophobic group for hydrophobic chromatography.

Abstract: A method of extracting a compound specifically bound by a ligand from a crude solution containing the compound is disclosed. The method comprises providing a multiplicity of liposomes having the ligand bound to the surface thereof, and mixing the liposomes with the crude solution so that the ligand binds to the compound to be extracted. The liposomes are then separated from the crude solution and the compound to be extracted recovered from the liposomes.