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Combining topological insulators (TIs) and magnetic materials in heterostructures is crucial for advancing spin‐based electronics. Magnetic insulators (MIs) can be deposited on TIs using the spin‐spray process, which is a unique nonvacuum, low‐temperature growth process. TIs have highly reactive surfaces that oxidize upon exposure to atmosphere, making it challenging to grow spin‐spray ferrites on TIs. In this work, it is demonstrated that a thin titanium capping layer on TI, followed by oxidation in atmosphere to produce a thin TiO_xinterfacial layer, protects the TI surface, without significantly compromising spin transport from the magnetic material across the TiO_xto the TI surface states. First, it is demonstrated that in Bi₂Te₃/TiO_x/Ni₈₀Fe₂₀heterostructures, TiO_xprovides an excellent barrier against diffusion of magnetic species, yet maintains a large spin‐pumping effect. Second, the TiO_xis also used as a protective capping layer on Bi₂Te₃, followed by the spin‐spray growth of the MI, Ni_xZn_yFe₂O₄(NZFO). For the thinnest TiO_xbarriers, Bi₂Te₃/TiO_x/NZFO samples have antiferromagnetic (AFM) disordered interfacial layer because of diffusion. With increasing TiO_xbarrier thickness, the diffusion is reduced, but still maintains strong interfacial magnetic exchange‐interaction. These experimental results demonstrate a novel method of low‐temperature growth of magnetic insulators on TIs enabled by interface engineering.