Zhaohui Huang scite author profile

We demonstrated a bioelectronic heart-on-a-chip model for studying the effects of acute hypoxia on cardiac function. A microfluidic channel enabled rapid modulation of medium oxygenation, which mimicked the regimes induced by a temporary coronary occlusion and reversibly activated hypoxia-related transduction pathways in HL-1 cardiac model cells. Extracellular bioelectronics provided continuous readouts demonstrating that hypoxic cells experienced an initial period of tachycardia followed by a reduction in beat rate and eventually arrhythmia. Intracellular bioelectronics consisting of Pt nanopillars temporarily entered the cytosol following electroporation, yielding action potential (AP)-like readouts. We found that APs narrowed during hypoxia, consistent with proposed mechanisms by which oxygen deficits activate ATP-dependent K+ channels that promote membrane repolarization. Significantly, both extra- and intracellular devices could be multiplexed, enabling mapping capabilities unachievable by other electrophysiological tools. Our platform represents a significant advance toward understanding electrophysiological responses to hypoxia and could be applicable to disease modeling and drug development.

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Thermal evaporation synthesis of SiC/SiO_x nanochain heterojunctions and their photoluminescence properties

Liu

et al. 2014

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New Yellow-Emitting Whitlockite-type Structure Sr_1.75Ca_1.25(PO₄)₂:Eu²⁺ Phosphor for Near-UV Pumped White Light-Emitting Devices

et al. 2014

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New compound discovery is of interest in the field of inorganic solid-state chemistry. In this work, a whitlockite-type structure Sr1.75Ca1.25(PO4)2 newly found by composition design in the Sr3(PO4)2-Ca3(PO4)2 join was reported. Crystal structure and luminescence properties of Sr1.75Ca1.25(PO4)2:Eu(2+) were investigated, and the yellow-emitting phosphor was further employed in fabricating near-ultraviolet-pumped white light-emitting diodes (w-LEDs). The structure and crystallographic site occupancy of Eu(2+) in the host were identified via X-ray powder diffraction refinement using Rietveld method. The Sr1.75Ca1.25(PO4)2:Eu(2+) phosphors absorb in the UV-vis spectral region of 250-430 nm and exhibit an intense asymmetric broadband emission peaking at 518 nm under λex = 365 nm which is ascribed to the 5d-4f allowed transition of Eu(2+). The luminescence properties and mechanism are also investigated as a function of Eu(2+) concentration. A white LED device which is obtained by combining a 370 nm UV chip with commercial blue phosphor and the present yellow phosphor has been fabricated and exhibit good application properties.

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Zhaohui Huang

Potassium-ion batteries: outlook on present and future technologies

Heart-on-a-Chip Model with Integrated Extra- and Intracellular Bioelectronics for Monitoring Cardiac Electrophysiology under Acute Hypoxia

Thermal evaporation synthesis of SiC/SiO_x nanochain heterojunctions and their photoluminescence properties

New Yellow-Emitting Whitlockite-type Structure Sr_1.75Ca_1.25(PO₄)₂:Eu²⁺ Phosphor for Near-UV Pumped White Light-Emitting Devices

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Zhaohui Huang

Potassium-ion batteries: outlook on present and future technologies

Heart-on-a-Chip Model with Integrated Extra- and Intracellular Bioelectronics for Monitoring Cardiac Electrophysiology under Acute Hypoxia

Thermal evaporation synthesis of SiC/SiOx nanochain heterojunctions and their photoluminescence properties

New Yellow-Emitting Whitlockite-type Structure Sr1.75Ca1.25(PO4)2:Eu2+ Phosphor for Near-UV Pumped White Light-Emitting Devices

Contact Info

Product

Resources

About

Thermal evaporation synthesis of SiC/SiO_x nanochain heterojunctions and their photoluminescence properties

New Yellow-Emitting Whitlockite-type Structure Sr_1.75Ca_1.25(PO₄)₂:Eu²⁺ Phosphor for Near-UV Pumped White Light-Emitting Devices