Abstract: A thin sensor film that is capable of indicating temperature and an associated sensor readout kit that illuminates the sensor film and detects the return fluorescence for analysis to determine temperature. The sensor film may be detached and reattached in order to be reused. The initial design achieves high sensitivity and accuracy in the range of interest to biologistics and can potentially address temperatures ranging from ?200 to 300° C. A variation allows for the use of optical fibers for measurements of surfaces inside enclosures.

Abstract: A thin sensor film that is capable of indicating temperature and an associated sensor readout kit that illuminates the sensor film and detects the return fluorescence for analysis to determine temperature. The sensor film may be detached and reattached in order to be reused. The initial design achieves high sensitivity and accuracy in the range of interest to biologistics and can potentially address temperatures ranging from ?200 to 300° C. A variation allows for the use of optical fibers for measurements of surfaces inside enclosures.

Abstract: A thin sensor film that is capable of indicating temperature and an associated sensor readout kit that illuminates the sensor film and detects the return fluorescence for analysis to determine temperature. The sensor film may be detached and reattached in order to be reused. The initial design achieves high sensitivity and accuracy in the range of interest to biologistics and can potentially address temperatures ranging from ?200 to 300° C. A variation allows for the use of optical fibers for measurements of surfaces inside enclosures.

Abstract: This invention describes a cell growth apparatus, particularly neuronal printed circuit board apparatus comprising an aerogel base and a pre-printed cellular growth pattern. The cellular growth pattern is comprised of combinations of layers of cellular adhesion promoting materials, cellular adhesion inhibiting materials, and/or cellular signal promoting materials. The invention further describes methods of promoting cell growth using the neuronal printed circuit board apparatus of the invention. The invention is useful for regeneration and precise guidance of cells, particularly nerve cells, when used as an implant.

Abstract: This invention relates to an lightweight, flexible, elastomeric, clear or opaque, optionally pigmented, pliable insulating material comprising an aerogel base material and a polymer material. The aerogel may be silica aerogel, a carbon aerogel, an alumina aerogel, a chalcogel, or an organic aerogel and may be crosslinked with polyurea or vanadium. In certain embodiments the aerogel is embedded within the silicone base polymer. In other embodiments the insulating material is composed of layers of aerogel impregnated polymer such that each layer comprises a different amount of aerogel, a different stiffness, a different thermal conduction behavior, or any other desirable parameter. Such layers can be assembled utilizing, for example, but without limitation, an onion layer approach. The layers of aerogel impregnated polymer may be color coded for identification of insulating properties.

Abstract: This invention describes a cell growth apparatus, particularly neuronal printed circuit board apparatus comprising an aerogel base and a pre-printed cellular growth pattern. The cellular growth pattern is comprised of combinations of layers of cellular adhesion promoting materials, cellular adhesion inhibiting materials, and/or cellular signal promoting materials. The invention further describes methods of promoting cell growth using the neuronal printed circuit board apparatus of the invention. The invention is useful for regeneration and precise guidance of cells, particularly nerve cells, when used as an implant.