Abstract
Composite particles with multifunctions have been extensively utilized for various applications. Bubble particles can be applied for ultrasound-mediated imaging, drug delivery, absorbers, cell culture, etc. This study proposes a one-step strategy to obtain Pt nanoparticles loaded in alginate bubbles. A needle-based droplet formation was used to generate uniform alginate particles about 2 mm in diameter. The hydrolysis reaction of NaBH4 was utilized to produce gaseous hydrogen and then trapped within alginate particles to form bubbles. The Pt4+ mixed with alginate solution was dropped into the reservoir to react with reducing NaBH4 and hardening CaCl2 to form Pt nanoparticles-alginate composite bubbles. Results indicate that the size of bubbles decreases with the CaCl2 concentration (1% ~ 20%), and size of bubbles increases with the NaBH4 concentration (1 ~ 20 mM). The advantages for the present approach include low cost, easy operation, and effective production of Pt nanoparticles-alginate composite bubbles.
Highlights
The metal nanoparticles (NPs) are powerful products of nanotechnology, providing broad variety of applications in life science [1,2]
Pt NPs@alginate bubbles Alginate is a kind of polysaccharide from marine brown algae
The alginate pregel allows entrapped small bubbles merging into lager bubbles before gel network formation in a low CaCl2 concentration
Summary
The metal nanoparticles (NPs) are powerful products of nanotechnology, providing broad variety of applications in life science [1,2]. The chemical versatility of metal NPs holds the potential to outclass in a number of applications [2]. These unique properties and applications of metal NPs are well reviewed [7,8,9]. The Pt NPs were employed for successful photothermal treatment of Neuro 2A cancer cell by using irradiation with 1,064 nm near-infrared pulse wave and the Nd YAG laser set at 3 W for 480 s. The Pt NPs increased 9°C in temperature leading to effective photothermal killing of cancer cells [15]
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