▎ 摘　　要

NOVELTY - Manufacture of pore structure ceramic nanoparticles involves generating a mixed solution (s1) by adding a surfactant to a solvent, generating a mixed solution (s2) by adding a ceramic precursor to the mixed solution (s1), and adding a surface modifying additive to the mixed solution (s2) to obtain ceramic nanoparticles having a controlled aggregation degree. USE - Manufacture of pore structure ceramic nanoparticles used in manufacture of pore structure ceramic nanoparticles-carbon allotrope composite (claimed) used in semiconductor, catalyst, and cosmetic. ADVANTAGE - The method provides pore structure ceramic nanoparticles having increased zeta potential, and provides composite having excellent homogeneity, mechanical strength, heat resistance, dielectric constant, refractive index, thermal conductivity, and electroconductivity. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are included for the following: manufacture of pore structure ceramic nanoparticles-carbon allotrope composite, which involves generating the mixed solution (s1) by adding a surfactant to a solvent, generating the mixed solution (s2) by adding the ceramic precursor to the mixed solution (s2), generating a mixed solution (s3) by adding a surface modification additive to the mixed solution (s2), and adding the mixed solution (s3) to the carbon allotrope dispersion solution to obtain a pore structure ceramic nanoparticle-carbon allotrope composite having controlled aggregation degree; the porous structure ceramic particles; and the pore structured ceramic nanoparticle-carbon allotrope composite.