Litcius/Paper detail

Mesoporous Nano-Badminton with Asymmetric Mass Distribution: How Nanoscale Architecture Affects the Blood Flow Dynamics

Tiancong Zhao, Runfeng Lin, Borui Xu, Minchao Liu, Liang Chen, Fan Zhang, Yongfeng Mei, Xiaomin Li, Dongyuan Zhao

2023Journal of the American Chemical Society35 citationsDOI

Abstract

While the nanobio interaction is crucial in determining nanoparticles’ in vivo fate, a previous work on investigating nanoparticles’ interaction with biological barriers is mainly carried out in a static state. Nanoparticles’ fluid dynamics that share non-negligible impacts on their frequency of encountering biological hosts, however, is seldom given attention. Herein, inspired by badmintons’ unique aerodynamics, badminton architecture Fe 3 O 4 &mPDA (Fe 3 O 4 = magnetite nanoparticle and mPDA = mesoporous polydopamine) Janus nanoparticles have successfully been synthesized based on a steric-induced anisotropic assembly strategy. Due to the “head” Fe 3 O 4 having much larger density than the mPDA “cone”, it shows an asymmetric mass distribution, analogous to real badminton. Computational simulations show that nanobadmintons have a stable fluid posture of mPDA cone facing forward, which is opposite to that for the real badminton. The force analysis demonstrates that the badminton-like morphology and mass distribution endow the nanoparticles with a balanced motion around this posture, making its movement in fluid stable. Compared to conventional spherical Fe 3 O 4 @mPDA nanoparticles, the Janus nanoparticles with an asymmetric mass distribution have straighter blood flow trails and ∼50% reduced blood vessel wall encountering frequency, thus providing doubled blood half-life and ∼15% lower organ uptakes. This work provides novel methodology for the fabrication of unique nanomaterials, and the correlations between nanoparticle architectures, biofluid dynamics, organ uptake, and blood circulation time are successfully established, providing essential guidance for designing future nanocarriers.

Topics & Concepts

NanoparticleNanotechnologyChemistryJanusMesoporous materialNanomaterialsDynamics (music)NanocarriersNanomedicineMaterials sciencePhysicsCatalysisBiochemistryAcousticsCharacterization and Applications of Magnetic NanoparticlesPickering emulsions and particle stabilizationNanoparticle-Based Drug Delivery