Compositions and methods for determining the origin location of a subterranean rock sample. Compositions include a nanoparticle tag with a fluorescent core and a polymer shell. The fluorescent core can include up-converting nanoparticles, rare earth element doped oxide, long persistent fluorescent materials, or encapsulated lanthanide complexes. Methods include mixing a nanoparticle tag into a fluid, flowing the fluid through a work string into a subterranean formation, recovering subterranean rock samples from the subterranean formation, and determining an origin location of the subterranean rock sample by detecting the presence of the nanoparticle tag on the sample.

Ligand-capped inorganic particles, films composed of the ligand-capped inorganic particles, and methods of patterning the films are provided. Also provided are electronic, photonic, and optoelectronic devices that incorporate the films. The ligands that are bound to the inorganic particles are composed of a cation/anion pair. The anion of the pair is bound to the surface of the particle and at least one of the anion and the cation is photosensitive.

Provided herein are multilayered, multidimensional upconversion nanomaterial compositions and methods. In certain aspects and embodiments, the compositions and methods are useful in the photolytic degradation of a phenolic pollutant (e.g., phenol).

The absorbance or emission wavelength of composite materials comprising a transition metal doped shell disposed over a rare earth doped core and a functionalizable group on the surface of the transition metal doped shell can change upon subjection to a carboxylic acid. This method of changing the absorbance or emission wavelength of a composite material can be used to identify counterfeit currency using an ink comprising a composite material.

A composition for photoluminescence of the chemical formula M.sub.2(1-y-z)Yb.sub.2yRem.sub.2zADO.sub.5-xF.sub.2x, a method for producing said composition, and uses of said composition are provided.

Disclosed is a method for constructing fluorescent Bombyx Mori silkworm silk irradiated by near-infrared light and its products, comprising: (1) preparing upconversion nanoparticles, and performing surface modification with concanavalin to obtain modified upconversion nanoparticles; (2) uniformly dispersing the modified upconversion nanoparticles in water to formulate an aqueous solution of the upconversion nanoparticles, (3) picking mature mulberry leaves, immersing the mulberry leaves in the aqueous solution system of the nanoparticles, leaching water, and naturally drying the mulberry leaves; (4) after silkworms have grown for a set time, feeding the treated mulberry leaves to the silkworms until the silkworms spin silk cocoons; and (5) collecting the silk, so as to obtain mulberry silk that fluoresces under near-infrared light. The present invention selects upconversion nanoparticles capable of emitting fluorescence under the irradiation of near-infrared light which has stronger penetration, thus has better application in deep tissue imaging.

Disclosed herein is a nanocomposite comprising a core-shell nanoparticle and a core-shell quantum dot. The core-shell nanoparticle comprises a phosphor core, a shell layer, and a cleavable peptide. The core-shell quantum dot comprises a center core, an intermediate layer, an outer layer, a silica layer, and an arginylglycylaspartic acid (RGD) peptide. The core-shell nanoparticle and the core-shell quantum dot are linked to each other via forming a peptide bond between the cleavable peptide and the RGD peptide. Also disclosed are the uses of the nanocomposite in making a diagnosis of tumors.

A curable resin composition for a color filter of a display device includes, among other things: a coloring agent; and a photoinitiator; and further includes one or more particles configured to absorb light in the near-infrared region of light and configured to emit light in the ultraviolet region of light.

A product includes a cell having a mixture comprising a solvent and colloidal nanoparticles. Each of the colloidal nanoparticles have a core and a shell surrounding the core. The cell also includes at least one electrode. A product includes a nanoparticle having a core and a shell. The core includes a luminescent material. The shell is silicon-based. A method includes applying an external stimulus to a cell containing a mixture comprising a solvent and colloidal nanoparticles for altering the brightness and/or color of an assembly of at least some of the colloidal nanoparticles. Each of the colloidal nanoparticles have a core and a shell surrounding the core.

Disclosed herein is a nanocomposite particle comprising a core-shell-shell nanoparticle, an encapsulated nanorod linked with the core-shell-shell nanoparticle, and a lipid layer encapsulating the core-shell-shell nanoparticle and the encapsulated nanorod. The core-shell nanoparticle comprises a phosphor core, an inner shell layer, an outer shell layer, and a cationic polymer. The encapsulated nanorod comprises a nanorod, and a mesoporous scaffold. According to embodiments of the present disclosure, the encapsulated nanorod is linked with the core-shell-shell nanoparticle via an electrostatic interaction between the cationic polymer and the mesoporous scaffold. Also disclosed are the uses of the nanocomposite in treating diseases, for example, cancers.