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Article Abstract
Spherical nucleic acids (SNAs), with their densely packed nucleic acid shells and programmable functionalities, have become indispensable in nanomedicine and biosensing. Developed synthesis methods, including salt aging, pH modulation, freeze-thaw cycling, n-butanol dehydration, evaporation drying, and microwave heating, have enabled foundational advances but are constrained by slow kinetics, compromised structural uniformity and especially harsh reaction conditions, making them unsuitable for in situ tracking of biological events. This concept article introduces acoustic levitation synthesis as a groundbreaking alternative, uniquely addressing these limitations through a rapid, green, and highly controllable process. By leveraging non-contact acoustic radiation forces, this method enables the synthesis of ultrahigh-density SNAs within minutes under ambient conditions, eliminating the need for toxic reagents or energy-intensive steps. The resulting SNAs exhibit superior homogeneity and stability compared to conventional approaches. We critically evaluate the conceptual novelty and limitations of this technique. Potential applications in surface-enhanced Raman spectroscopy (SERS) and targeted therapeutics are highlighted, positioning acoustic levitation as a transformative tool for next-generation nanobiotechnology.
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| http://dx.doi.org/10.1002/cphc.202401008 | DOI Listing |
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