An object of the present invention is to provide a resistive composition that can form a thick film resistor excluding a toxic lead component from a conductive component and glass and having characteristics equivalent to or superior to conventional resistors in terms of, in a wide resistance range, resistance values, TCR characteristics, current noise characteristics, withstand voltage characteristics and the like. The resistive composition of the present invention includes: ruthenium-based conductive particles including ruthenium dioxide; a glass frit that is essentially free of a lead component; and an organic vehicle, wherein the glass frit is a glass frit which is constituted such that in a case where a fired product of a mixture of the glass frit and the ruthenium dioxide has in a range of 1 k/ to 1 M/, the fired product exhibits a temperature coefficient of resistance in a plus range.

A multi-layer glass phosphor powder sheet and its preparation method, and a light-emitting device. The preparation method for the multi-layer glass phosphor powder sheet includes: mixing a first optical functional material, a glass powder and an organic carrier to obtain a first slurry, and mixing a second optical functional material, the glass powder and the organic carriers to obtain a second slurry; coating the first slurry on a first substrate, and drying it at a first temperature so that at least some of the organic carrier is volatilized, to obtain a first functional layer, the first temperature being lower than a softening point of the glass powder; coating the second slurry on the surface of the first functional layer, to obtain a second functional layer; and sintering the first substrate on which the functional layers are coated at a second temperature, to obtain the multi-layer glass phosphor powder sheet.

A low-temperature fired ceramic containing: a fired glass component that contains B.sub.2O.sub.3, SiO.sub.2, and an alkaline earth metal oxide and excluding Li.sub.2O, and a percentage of the alkaline earth metal oxide in the fired glass component is 10 mol % or less; and one or more oxides of ceramic crystalline components.

The present invention provides a photosensitive glass material, including the following components in percentage by weight: 65-78% of SiO2; 2-12% of R2O; 5-15% of Li2O; 3-12% of Al2O3; 1.5-10% of ZrO2; 0.01-0.6% of CeO2; 0.01-0.8% of Ag2O, wherein Li2O/ZrO2 is 1.0-7.5, and the R2O is one or two of Na2O and K2O. By reasonable component design, the photosensitive glass material of the present invention has a lower dielectric loss, and photosensitive microcrystalline glass and a photosensitive microcrystalline glass product made therefrom also have lower dielectric losses, and can reduce transmission losses of electric signals of application terminals during use.

It is demanded that a LTCC substrate composition capable of maintaining low relative permittivity k and high Q value without having a reactivity with a silver which is an electrode material and causing migration of the silver during a co-firing operation at a low temperature. Provided with a low temperature co-fired substrate composition containing 83 to 91 wt. % of CaOB.sub.2O.sub.3SiO.sub.2 based glass powder, 7.5 to 14 wt. % of two or more kinds of nanometer-sized SiO.sub.2 powders having different ranges of particle diameter and 1.5 to 3 wt. % of -wollastonite powder as a crystallization agent wherein the glass powder contains 40.0 to 45.0 wt. % of CaO, 9.0 to 20.0 wt. % of B.sub.2O.sub.3 and 40.0 to 46.0 wt. % of SiO.sub.2.