Abstract: The present invention provides dichromic fluorescent compounds, as well as processes for making and methods for using the dichromic fluorescent compounds.

Abstract: An acoustic separation device for reagent manipulation a standing acoustic including a wave generating device and pairs of perforated pseudo walls comprising a longitudinal standing bulk acoustic wave (LSBAW) channel. The LSBAW channel provides local pressure field amplification to overcome drag forces arising from reagent flow. Further, method for manipulating a reagent under continuous flow conditions microcarrier particles locally confined in an acoustic separation device comprising an inlet and an outlet, a fluid routing layer coupled to a channel, a plurality of loading wells configured to hold a plurality of substances required for a desired synthesis, and a controller configured to distribute the plurality of substances held by the loading wells in a desired sequence. The device for antibody manipulation further comprises an ultrasound actuator, and a channel wherein the channel is separated from the ultrasound actuator.

Abstract: An acoustic separation device for reagent manipulation a standing acoustic including a wave generating device and pairs of perforated pseudo walls comprising a longitudinal standing bulk acoustic wave (LSBAW) channel. The LSBAW channel provides local pressure field amplification to overcome drag forces arising from reagent flow. Further, method for manipulating a reagent under continuous flow conditions microcarrier particles locally confined in an acoustic separation device comprising an inlet and an outlet, a fluid routing layer coupled to a channel, a plurality of loading wells configured to hold a plurality of substances required for a desired synthesis, and a controller configured to distribute the plurality of substances held by the loading wells in a desired sequence. The device for antibody manipulation further comprises an ultrasound actuator, and a channel wherein the channel is separated from the ultrasound actuator.

Abstract: A system and method for producing a near-infrared sensitive luminescent materials beyond 1000 nm is disclosed. The method includes reacting K2[PtCl4] and cyanoxime ligands in an aqueous solution to achieve dark-green one-dimensional coordination-polymeric materials having a molecular formula of PtL2, wherein L are the cyanoxime ligands having a molecular formula of NC—C(?NOH)—R with R being an electron withdrawing group such as: N?N-diethylacetamide, N-piperidine, N-morpholyl, 2-pyridine, benzoyl, or N-pyrrolidine.

Abstract: The present invention provides dichromic fluorescent compounds, as well as processes for making and methods for using the dichromic fluorescent compounds.

Abstract: A system and method for producing a near-infrared sensitive luminescent materials beyond 1000 nm is disclosed. The method includes reacting K2[PtCl4] and cyanoxime ligands in an aqueous solution to achieve dark-green one-dimensional coordination-polymeric materials having a molecular formula of PtL2, wherein L are the cyanoxime ligands having a molecular formula of NC—C(?NOH)—R with R being an electron withdrawing group such as: N?N-diethylacetamide, N-piperidine, N-morpholyl, 2-pyridine, benzoyl, or N-pyrrolidine.

Abstract: The invention encompasses asymmetrically charged fluorescent cyanine dyes and methods of using such dyes. In particular, the invention encompasses near infrared polymethine cyanine dyes.

Abstract: The present invention provides dichromic fluorescent compounds, as well as processes for making and methods for using the dichromic fluorescent compounds.