“…We found that GHN-2 exhibits a higher H c (6.1 kOe) and larger squareness S (≈0.8) than both the GHN-1 and HS (Figure 3a), confirming our simulation results (Figure 1c,d); moreover, GHN-2 shows the nature of magnetic isotropy, which is characterized by magnetic measurements parallel and perpendicular to the ribbon surface (Figure S5, Supporting Information), due to randomly oriented Nd 2 Fe 14 B grains within the material (Figure 2j). As a result, GHN-2 achieves a rare combination of high H c and high remanent magnetization (B r ) compared with previously reported isotropic Nd 2 Fe 14 B/α-Fe nanocomposite magnets (Figure 3b), [13,[29][30][31][32][33][34][35] and thus yields a record-high maximum energy product of (BH) max = 26 MG Oe (Figure 3c) for this class of isotropic nanocomposite magnets, which usually have values of ≈20 MG Oe. [4,6,17] The obtained energy product is ≈50% higher than that of the gradient-free counterpart (17.3 MG Oe) and outperforms the values of state-of-the-art isotropic permanent magnets.…”