A polymeric adhesive film including a conductive filler of polyaniline (PANI) and MXene is provided. The adhesive film can be painted, printed, or applied to different substrate structures, including aircraft and wind turbine blades. The adhesive film has potential as a fatigue sensor, a strain sensor, a gas sensor, a humidity sensor, and a temperature sensor, by non-limiting example. In one embodiment, a force sensing material includes a conductive filler of PANI and MXene within an organic or polymer matrix. The force sensing material is used to measure local mechanical strain by detecting the change in electrical conductivity induced by the mechanical strain. The force sensing material can also be used in other applications where local strain changes, including the detection of local humidity and local temperature.

Methods and compositions are provided that include a multichromophore and/or multichromophore complex for identifying a target biomolecule. A sensor biomolecule, for example, an antibody can be covalently linked to the multichromophore. Additionally, a signaling chromophore can be covalently linked to the multichromophore. The arrangement is such that the signaling chromophore is capable of receiving energy from the multichromophore upon excitation of the multichromophore. Since the sensor biomolecule is capable of interacting with the target biomolecule, the multichromophore and/or multichromophore complex can provide enhanced detection signals for a target biomolecule.

The present disclosure relates to compounds of formula IVa or IVb, or salts thereof, as intermediates in the manufacture of conducting redox polymers. L is a covalent linker moiety and R is a reversible redox group.

The disclosure further relates to conducting redox polymers produced from such compounds, as well as substrates coated with such conducting redox polymers, and organic batteries comprising such conducting redox polymers.

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Fluorescent water soluble conjugated polymers including polycyclic aromatic comonomers are provided. The conjugated polymers can be linked to an acceptor fluorescent dye. The conjugated polymers find use in conjugates with biological substrates having applications in a variety of applications including methods of analyte detection.

The present invention provides water soluble photoactive macromolecular complexes and methods for detecting an analyte in a sample by using a binding agent conjugated to a water soluble photoactive macromolecule.

A high-sensitivity, high-selectivity and portable detection method for trace uranyl ion is described. The method has an ultralow detection limit of 11 pM/2.6 ppt and is useful in precise monitoring of the uranium content in agricultural and sideline products, foods, environments and so on. The test instrument is miniaturized and low in cost to achieve high-precision portable measurement in the field. A conjugated polymer with aggregation-induced emission (AIE) activity is synthesized, and prepared into Pdots, and a uranyl-responsive electrochemiluminescence (ECL) probe is developed by modifying the Pdots with DNA or RNA, which serves as an adsorption ligand of uranyl ion. The probe exhibits good biocompatibility. The ECL technology can be used in uranyl ion detection and the method has extremely high sensitivity. A uranyl ion probe with AIE activity is also disclosed, which can be applied in portable precise monitoring of trace uranyl ion by means of the ECL technology.

Biocompatible polymer hydrogel composite structures, methods of making the composite structures, and methods of using the composite structures as scaffolds for biological tissue growth and regeneration are provided. The methods for making the composite structures start with a porous high resolution three-dimensional hydrogel scaffold in which polymer precursors are infused and then polymerized in situ to form a water-soluble, electrically conducting polymer that is bonded to and/or entrapped within the hydrogel.

Conjugated, electrically conducting polymers (CPs) with the ability to covalently graft onto collagen and collagenic materials are provided. Also provided are methods of functionalizing biological tissues and other biological substrates with the CPs, and methods of using the functionalized biological substrates as cell and tissue growth scaffolds that harness the passive therapeutic benefits of CPs and use the enhanced conductivity provided by the scaffolds to stimulate cell growth and proliferation through the bulk of the biological substrate.

Embodiments may relate to a material to provide electrostatic discharge (ESD) protection in an electrical device. The material may include first and second electrically-conductive carbon allotropes. The material may further include an electrically-conductive polymer that is chemically bonded to the first and second electrically-conductive carbon allotropes such that an electrical signal may pass between the first and second electrically-conductive carbon allotropes. Other embodiments may be described or claimed.

Described herein, inter alia, are peptide containing polymers, and methods of making and using the same.