This work presents the design, fabrication, and characterization of innovative suspended microcalorimeters tailored for nanoscale heat transfer studies. These devices address the critical trade-off between thermal resistance and stiffness–key factors for achieving nanowatt power resolution while withstanding near-contact forces. By employing a novel three-dimensional U-beam structure, the microcalorimeter achieves a thermal resistance of (1.555±0.002)×10⁶ K/W and a stiffness of 52.5 N/m. This design enables a power resolution of 8.4 nW in DC mode, making it highly suitable for exploring nanoscale heat transfer phenomena across sub-nanometer gaps and atomic junctions. The performance of these devices opens new experimental possibilities in the field of heat transfer at the nanoscale. 2024-0194