Abstract: The present invention provides a mesothelin binding molecule, comprising an anti-mesothelin single domain antibody. Complementarity determining regions (CDR) of the single domain antibody comprise CDR1 shown in SEQ ID NO: 1, CDR2 shown in SEQ ID NO: 2, and CDR3 shown in SEQ ID NO: 3.

Abstract: Disclosed in the present invention is a nanobody, comprising a heavy chain variable region containing CDR1, CDR2 and/or CDR3, and having the function of recognizing and binding to BCMA. Reference can be made to the text for specific CDR sequences. Also disclosed in the present invention are a BCMA binding molecule, a composition comprising the nanobody or BCMA binding molecule, a BCMA detection agent, and an application of the nanobody, the BCMA binding molecule, or the composition in preparation of a drug for treating a BCMA related disease. The nanobody, BCMA binding molecule, and composition in the present invention can recognize and bind to BCMA, and have potential utility for treatment of BCMA related diseases.

Abstract: A nanostructured particulate material, which includes a redox active luminescent organic and/or ionic compound, is provided herein. The nanostructured particulate material may be used for determining the presence of an analyte of interest in a sample by detecting the emitted electromagnetic radiation generated by exposing a reagent mixture, which includes the nanostructured material and the target analyte, to chemical or electrochemical energy.

Abstract: A nanostructured particulate material, which includes a redox active luminescent organic and/or ionic compound, is provided herein. The nanostructured particulate material may be used for determining the presence of an analyte of interest in a sample by detecting the emitted electromagnetic radiation generated by exposing a reagent mixture, which includes the nanostructured material and the target analyte, to chemical or electrochemical energy.

Abstract: A nanostructured particulate material, which includes a redox active luminescent organic and/or ionic compound, is provided herein. The nanostructured particulate material may be used for determining the presence of an analyte of interest in a sample by detecting the emitted electromagnetic radiation generated by exposing a reagent mixture, which includes the nanostructured material and the target analyte, to chemical or electrochemical energy.

Abstract: A nanostructured particulate material, which includes a redox active luminescent organic and/or ionic compound, is provided herein. The nanostructured particulate material may be used for determining the presence of an analyte of interest in a sample by detecting the emitted electromagnetic radiation generated by exposing a reagent mixture, which includes the nanostructured material and the target analyte, to chemical or electrochemical energy.