Qudus Omotayo Lawal scite author profile

An array of highly sensitive pressure sensors entirely made of biodegradable materials is presented, designed as a single-use flexible patch for application in cardiovascular monitoring. The high sensitivity in combination with fast response time is unprecedented when compared to recent reports on biodegradable pressure sensors (sensitivity three orders of magnitude higher), as illustrated by pulse wave velocity measurements, toward hypertension detection.

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Pressure Sensors: A Sensitive and Biodegradable Pressure Sensor Array for Cardiovascular Monitoring (Adv. Mater. 43/2015)

Boutry

Nguyen

Lawal

et al. 2015

Advanced Materials

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Fully biodegradable pressure sensor, viscoelastic behavior of PGS dielectric elastomer upon degradation

Boutry

Nguyen

Lawal

et al. 2015

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Polysulfide ligand exchange on zinc sulfide nanocrystal surfaces for improved film formation

Herron

Lawal

Bent

2015

Applied Surface Science

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The physical and chemical properties of nanocrystals can be modified by changing the ligands attached at their surfaces. A ligand exchange procedure with ammonium polysulfides has been developed to replace the native ligands on cubic zinc sulfide nanocrystals. Several mixtures of polysulfides in formamide and other solvents were prepared with different average chain lengths and used to achieve high yield ligand exchange, as confirmed by UV-Vis spectroscopy, infrared spectroscopy and x-ray photoelectron spectroscopy. The results show that polysulfide content can be increased with longer surface ligands, and that the exchange process yields compositionally pure surfaces before and after high temperature anneals. X-ray diffraction and scanning electron microscopy show that, when annealed in nitrogen at 525°C, polysulfide ligands lead to average crystal sizes 2-3 times larger than in the un-exchanged control sample. The ligand exchange procedure itself does not alter nanocrystal size. Nanocrystal inks prepared from the exchanged samples form thin films that exhibit superior grain growth, morphology, mass retention, and composition compared to the un-exchanged material. Overall, polysulfide species are demonstrated as alternative ligands for the surfaces of metal chalcogenide nanocrystals, which when incorporated in an efficient ligand-exchange procedure can improve the quality of ZnS nanocrystal inks.

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