Disclosed in certain embodiments is a method of preparing structural colorants comprising photonic particles, the method comprising varying the calcination temperature in the process to enable the tuning of pore size to obtain a wide variety of possible colors.

Disclosed in certain embodiments is a composition comprising a structural colorant comprising photonic particles comprising a metal oxide and a transition metal, the molar ratio of transition metal to metal oxide being less than about 2:1.

The disclosure provides improved magnetic glass particles for use in nucleic acid capture, enrichment, analysis, and/or purification. Various modifications to the disclosed compositions and methods of using the same, as well as devices and kits are described.

The disclosure provides improved magnetic glass particles for use in nucleic acid capture, enrichment, analysis, and/or purification. Various modifications to the disclosed compositions and methods of using the same, as well as devices and kits are described.

The present invention relates to novel processes for recovering iron values from the bauxite residue. It comprises drying the red mud either directly or after neutralizing or after water washing. The bauxite residue was treated with iron nanoparticles of varying the size from 100-1000 nm, heating in muffle furnace or inductive furnace at the temperature 700-800° C. The invention resulted in increasing in magnetic properties of a selected species by coating of the iron particles on their surfaces. The iron oxides Fe.sub.2O.sub.3 and α-FeOOH (goethite) present in the bauxite residue was converted to Fe.sub.3O.sub.4 (magnetite) after the treatment using inductive heating. Hence, magnetic susceptibility of the particles enhances and can be separated by magnetic separator and ultimately separated from the nonmagnetic material. Furthermore, the isolated iron enriched material was used for various applications such as reduction of arsenic, chemical oxygen demand (COD) in wastewater.

The present invention relates to novel processes for recovering iron values from the bauxite residue. It comprises drying the red mud either directly or after neutralizing or after water washing. The bauxite residue was treated with iron nanoparticles of varying the size from 100-1000 nm, heating in muffle furnace or inductive furnace at the temperature 700-800° C. The invention resulted in increasing in magnetic properties of a selected species by coating of the iron particles on their surfaces. The iron oxides Fe.sub.2O.sub.3 and α-FeOOH (goethite) present in the bauxite residue was converted to Fe.sub.3O.sub.4 (magnetite) after the treatment using inductive heating. Hence, magnetic susceptibility of the particles enhances and can be separated by magnetic separator and ultimately separated from the nonmagnetic material. Furthermore, the isolated iron enriched material was used for various applications such as reduction of arsenic, chemical oxygen demand (COD) in wastewater.

Disclosed is a composite particle for use in a marking that is suitable for identification/authentication purposes. The particle comprises at least one superparamagnetic portion and at least one thermoluminescent portion and optionally also a thermoconductive portion between the superparamagnetic and thermoluminscent portions.

Disclosed is a composite particle for use in a marking that is suitable for identification/authentication purposes. The particle comprises at least one superparamagnetic portion and at least one thermoluminescent portion and optionally also a thermoconductive portion between the superparamagnetic and thermoluminscent portions.

The present disclosure is directed to methods of Quantum Spin Engineering of spinel superparamagnetic ferrite nanoparticles (SMFNs) for MRI contrast agents and for magnetohyperthermia agents. Using the methods herein, the magnetic properties of the SMFNs can be controlled by changing the amount of 3d-transition element cations having unpaired electrons in the 3d orbital that occupy the octahedral sites of the spinel crystal form, to form mixed spinels, while anions in the spinels can be utilized to magnetically couple the cations utilizing intra-crystalline angles determined by ion sizes and crystal structure, and further tuning of other critical parameters is provided. The mixed spinels disclosed herein provide enhanced MRI contrast agents and improved magnetohyperthermia agents with lower toxicity and safety concerns, while the production methods disclosed herein have lower cost.

A hybrid hydrogel carrier for high-salinity wastewater treatment and a preparation method thereof are disclosed. The hybrid hydrogel carrier includes a functional microorganism and a conductive hydrogel carrier, wherein the functional microorganism is a halotolerant species; the conductive hydrogel carrier is a compatible conductive hybrid hydrogel, and magnetic triiron tetraoxide (Fe.sub.3O.sub.4) particles and a compatible substance are uniformly distributed on the surface and inside. The preparation method includes dissolving an aniline solution and a phytic acid solution in a polyvinyl alcohol solution, and cooling the mixed solution to obtain solution I; dispersing a microbial solution, the compatible substance and the Fe.sub.3O.sub.4 particles into the solution I to obtain solution II; dissolving ammonium persulfate in deionized water to prepare an ammonium persulfate solution, after cooling the solution, mixing quickly with the solution II to obtain solution III, then freezing and thawing the solution III repeatedly to obtain the hybrid hydrogel carrier.