Scalable interconnect structures with selective via posts

What is claimed is: 1. An integrated circuit (IC) interconnect structure, comprising: a conductive interconnect feature embedded within a first dielectric material disposed over a substrate; a via recess overlapping a sidewall of the interconnect feature; a conductive via post disposed in direct contact with a top surface of the interconnect feature; and a second dielectric material disposed within the via recess and in direct contact with the sidewall of the interconnect feature, wherein the via recess defines a non-planarity in the first dielectric material, or in an intervening dielectric material disposed between the first dielectric material and the second dielectric material. 2. The IC interconnect structure of claim 1 , wherein the via recess defines a non-planarity in the first dielectric material that exposes the sidewall of the interconnect feature; the conductive via post is substantially absent from the interconnect feature sidewall; a top surface of the first dielectric layer beyond a lateral dimension of the via recess is planar with the top surface of the interconnect feature; and the first and second dielectric materials form an interface demarking the via recess. 3. The IC interconnect structure of claim 1 , wherein the first and second dielectric materials form an interface demarking the via recess; and wherein the intervening dielectric material is disposed between the first and second dielectric material in regions where the via recess is absent, and further disposed over the top surface of the interconnect feature in regions where the via post is absent. 4. The IC interconnect structure of claim 1 , wherein: the interconnect feature comprises a fill metal of a first composition, and an interconnect liner of a second composition cladding the sidewalls of the fill metal; the via post is in contact with the fill metal; and the second dielectric material disposed within the recess is in contact with the interconnect liner. 5. The IC interconnect structure of claim 1 , wherein the interconnect feature comprises: a fill metal of a first metal composition suitable for electroless formation of the via post material; and an interconnect liner cladding sidewalls of the fill metal, the liner being of a second composition unsuitable for electroless formation of the via post material. 6. The IC interconnect structure of claim 1 , wherein: the via post comprises at least one of Ni, Cu, Co, Ru, Pd, Pt, or Au, and is doped with P, C, W, or B impurities; and the interconnect feature comprises: a fill metal; and an interconnect liner cladding sidewalls of the fill metal, the liner further comprising a metal nitride, a metal oxide, or a non-metallic dielectric having a composition distinct from the first dielectric material. 7. The IC interconnect structure of claim 1 , wherein: the via post is embedded within the second dielectric material, with a thickness of the second dielectric material exceeding a vertical height of the via post. 8. The IC interconnect structure of claim 1 , wherein: the via post is embedded within the second dielectric material, with a thickness of the second dielectric material exceeding a vertical height of the via post; and the second dielectric material comprises a dielectric stack including: a conformal base layer disposed within the via recess and cladding the via post; and a non-conformal top layer disposed over the base layer, the top layer having a thickness sufficient to cover a top surface of the via post. 9. The IC interconnect structure of claim 1 , further comprising: a second conductive interconnect feature disposed on a top surface of the via post, the second conductive feature extending beyond an edge of the top via post surface and contacting a portion of a sidewall of the via post. 10. The IC interconnect structure of claim 1 , wherein: the conductive interconnect feature is one of a pair of interconnect features embedded within the first dielectric material and spaced laterally apart by a first space; the via recess is disposed within the first space; and a bottom of the via post in contact with a top surface of a first of the pair of interconnect features is laterally spaced apart from a top surface of the second of the pair of interconnect structures by at least the first space. 11. A method of fabricating an integrated circuit (IC) interconnect structure, the method comprising: forming a conductive interconnect feature embedded within a first dielectric material over a substrate; patterning a via opening that exposes a top surface and a sidewall of the conductive interconnect feature; forming a conductive via post in direct contact with the top surface of the interconnect feature selectively relative to the exposed sidewall; and depositing a second dielectric material within the via opening, over the first dielectric material, in direct contact with the exposed conductive interconnect feature sidewall, and over a sidewall of the via post, wherein the via opening defines a non-planarity in the first dielectric material, or in an intervening dielectric material disposed between the first dielectric material and the second dielectric material. 12. The method of claim 11 , wherein: forming the conductive interconnect feature further comprises cladding a fill metal of a first metal composition suitable for catalyzing a subsequent electroless deposition with a liner material unsuitable for catalyzing the subsequent electroless deposition; and forming the conductive via post further comprises electrolessly depositing a via metal on the catalytic fill metal without depositing the via metal on the non-catalytic liner. 13. The method of claim 11 , wherein depositing the second dielectric material further comprises: conformally depositing a base dielectric layer onto the sidewall of the conductive interconnect feature, and over a sidewall of the via post; and non-conformally depositing a top dielectric layer over the base dielectric layer to planarize a top surface of the top dielectric layer over a top surface of the via post. 14. The method of claim 11 , further comprising depositing an intervening dielectric material over the top surface of the interconnect feature and over the first dielectric material; wherein: patterning the via opening further comprises etching through the intervening dielectric material to expose a portion of the interconnect feature top surface and form a via recess in the first dielectric material adjacent to the interconnect feature that exposes the conductive interconnect feature sidewall; and wherein depositing the second dielectric material comprises depositing the second dielectric material over the intervening dielectric material. 15. The method of claim 11 , further comprising: surrounding the via post with the second dielectric material; etching a second via opening into the second dielectric material exposing a top surface of the via post, the second via opening extending beyond an edge of the via post top surface, and exposing a portion of a sidewall of the via post; and depositing a second interconnect feature within the second via opening, the second interconnect feature contacting the top surface and sidewall of the via post. 16. An integrated circuit (IC) interconnect structure, comprising: a pair of first conductive interconnect features embedded within a first dielectric material disposed over a substrate and spaced laterally apart by a first space; a conductive via post disposed in direct contact with a top surface one of the first conductive inte