The organosilicon-modified polyimide resin composition may also comprise phosphor for obtaining the desired light-emitting properties. The phosphor can convert the wavelength of the light emitted from the light-emitting semiconductor. For example, yellow phosphor can convert blue light to yellow light, and red phosphor can convert blue light to red light. Examples of yellow phosphor include transparent phosphor such as (Ba,Sr,Ca)₂SiO₄:Eu, and (Sr,Ba)₂ SiO₄:Eu(barium orthosilicate (BOS)); silicate-type phosphor having a silicate structure such as Y₃Al₅O₁₂:Ce(YAG(yttrium.aluminum.garnet):Ce), and Tb₃Al₃O₁₂:Ce(YAG(terbium.aluminum.garnet):Ce); and oxynitride phosphor such as Ca-α-SiAlON. Examples of red phosphor include nitride phosphor, such as CaAlSiN₃:Eu, and CaSiN₂:Eu. Examples of green phosphor include rare earth-halide phosphor, and silicate phosphor. The ratio of the phosphor in the organosilicon-modified polyimide resin composition may be determined arbitrarily according to the desired light-emitting property. In addition, since the phosphor have a thermal conductivity which is significantly higher than that of the organosilicon-modified polyimide resin, the thermal conductivity of the organosilicon-modified polyimide resin composition as a whole will increase as the ratio of the phosphor in the organosilicon-modified polyimide resin composition increases. Accordingly, in an embodiment, as long as the light-emitting property is fulfilled, the content of the phosphor can be suitably increased to increase the thermal conductivity of the organosilicon-modified polyimide resin composition, which is beneficial to the heat dissipation of the filament substrate or the light-conversion layer. Furthermore, when the organosilicon-modified polyimide resin composition is used as the filament substrate, the content, shape and particle size of the phosphor in the organosilicon-modified polyimide resin composition also have certain effect on the mechanical property (such as the elastic modulus, elongation, tensile strength) and the warpage extent of the substrate. In order to render superior mechanical property and thermal conductivity as well as small warpage extent to the substrate, the phosphor included in the organosilicon-modified polyimide resin composition are particulate, and the shape thereof may be sphere, plate or needle, preferably sphere. The maximum average length of the phosphor (the average particle size when they are spherical) is above 0.1 μm, preferably over 1 μm, further preferably 1?100 μm, and more preferably 1?50 μm. The content of phosphor is no less than 0.05 times, preferably no less than 0.1 times, and no more than 8 times, preferably no more than 7 times, the weight of the organosilicon-modified polyimide. For example, when the weight of the organosilicon-modified polyimide is 100 parts in weight, the content of the phosphor is no less than 5 parts in weight, preferably no less than 10 parts in weight, and no more than 800 parts in weight, preferably no more than 700 parts in weight. When the content of the phosphor in the organosilicon-modified polyimide resin composition exceeds 800 parts in weight, the mechanical property of the organosilicon-modified polyimide resin composition may not achieve the strength as required for a filament substrate, resulting in the increase of the defective rate of the product. In an embodiment, two kinds of phosphor are added at the same time. For example, when red phosphor and green phosphor are added at the same time, the added ratio of red phosphor to green phosphor is 1:5?8, preferably 1:6?7. In another embodiment, red phosphor and yellow phosphor are added at the same time, wherein the added ratio of red phosphor to yellow phosphor is 1:5?8, preferably 1:6?7. In another embodiment, three or more kinds of phosphor are added at the same time.