The quantum-induced dilatonic brane-world (new brane-world) is created by b
rane conformal field theory (CFT) quantum effects (giving effective brane t
ension) in accordance with the AdS/CFT setup which also defines the surface
term. Considering the bosonic sector of 5D gauged supergravity with a sing
le scalar and taking the boundary action as predicted by supersymmetry (SUS
Y), the possibility of supersymmetrizing the dilatonic new brane-world is d
iscussed. It is demonstrated that for a number of superpotentials the flat
SUSY dilatonic brane-world (with dynamically induced brane dilaton) or quan
tum-induced de Sitter dilatonic brane-world (not the anti-de Sitter one) wh
ere SUSY is broken by the quantum effects occurs. The analysis of graviton
perturbations indicates that gravity is localized on such branes.