An object is to provide a new type of near-infrared ray-emitting phosphor which exhibits excellent emission intensity. A near-infrared ray-emitting phosphor is represented by a general formula, (Y, Lu, Gd).sub.3-x-y (Ga,Al,Sc).sub.5O.sub.12:(Cr.sub.x,(Yb,Nd).sub.y) (0.05<x<0.3, 0≤y<0.3).

An object is to provide a new type of near-infrared ray-emitting phosphor which exhibits excellent emission intensity. A near-infrared ray-emitting phosphor is represented by a general formula, (Y, Lu, Gd).sub.3-x-y (Ga,Al,Sc).sub.5O.sub.12:(Cr.sub.x,(Yb,Nd).sub.y) (0.05<x<0.3, 0≤y<0.3).

A double capsule assembly includes an outer capsule and an inner capsule configured to be positioned within the outer capsule. The inner capsule is configured to have a sample positioned therein. The double capsule assembly is configured to be placed in a solid media assembly to analyze or synthesize the sample.

A double capsule assembly includes an outer capsule and an inner capsule configured to be positioned within the outer capsule. The inner capsule is configured to have a sample positioned therein. The double capsule assembly is configured to be placed in a solid media assembly to analyze or synthesize the sample.

The present invention provides, as a lithium-containing transition metal oxide, a substance which is given by the chemical compositional formula Li.sub.4M.sub.5O.sub.12 (M=Cr, Co, or Zr) and has a spinel-type crystal structure. Provided is a lithium ion secondary cell having a positive electrode configured from a lithium-containing transition metal oxide which has a spinel-type crystal structure and has the chemical compositional formula Li.sub.4M.sub.5O.sub.12 (M=Cr or Co). The present invention further provides a lithium ion secondary cell having a negative electrode configured from a lithium-containing transition metal oxide which has a spinel-type crystal structure and has the chemical compositional formula Li.sub.4M.sub.5O.sub.12 (M=Zr).

The invention relates to active electrode materials and to methods for the manufacture of active electrode materials. Such materials are of interest as active electrode materials in lithium-ion or sodium-ion batteries. The invention provides an active electrode material expressed by the general formula M1.sub.aM2.sub.2-aM3.sub.bNb.sub.34-bO.sub.87-c-dQ.sub.d.

The invention relates to active electrode materials and to methods for the manufacture of active electrode materials. Such materials are of interest as active electrode materials in lithium-ion or sodium-ion batteries. The invention provides an active electrode material expressed by the general formula M1.sub.aM2.sub.2-aM3.sub.bNb.sub.34-bO.sub.87-c-dQ.sub.d.

Provided is a near-infrared light emitting fluorescent material including an oxide containing Gd, Cr and Al, in which a molar ratio of Cr is in a range of 0.0085 or more and 0.05 or less when a total molar ratio of Gd and Cr is defined as 1 in 1 mol of the chemical composition of the near-infrared light emitting fluorescent material, and having a light emission peak wavelength in a range of 690 nm or more and 790 nm or less, as excited with light having a light emission peak wavelength in a range of 380 nm or more and 480 nm or less.

Provided is a near-infrared light emitting fluorescent material including an oxide containing Gd, Cr and Al, in which a molar ratio of Cr is in a range of 0.0085 or more and 0.05 or less when a total molar ratio of Gd and Cr is defined as 1 in 1 mol of the chemical composition of the near-infrared light emitting fluorescent material, and having a light emission peak wavelength in a range of 690 nm or more and 790 nm or less, as excited with light having a light emission peak wavelength in a range of 380 nm or more and 480 nm or less.

The invention relates to active electrode materials and to methods for the manufacture of active electrode materials. Such materials are of interest as active electrode materials in lithium-ion or sodium-ion batteries. The invention provides an active electrode material expressed by the general formula M1.sub.aM2.sub.2-aM3.sub.bNb.sub.34-bO.sub.87-c-dQ.sub.d.