Yuandong Gu scite author profile

Arc-synthesized single-walled carbon nanotubes have been purified through preparative electrophoresis in agarose gel and glass bead matrixes. Two major impurities were isolated: fluorescent carbon and short tubular carbon. Analysis of these two classes of impurities was done. The methods described may be readily extended to the separation of other water-soluble nanoparticles. The separated fluorescent carbon and short tubule carbon species promise to be interesting nanomaterials in their own right.

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Solid-state lighting: failure analysis of white LEDs

Narendran

Freyssinier

et al. 2004

Journal of Crystal Growth

545

229

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Life of LED-Based White Light Sources

Narendran

2005

J. Display Technol.

633

228

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ZnO Nanosheets Abundant in Oxygen Vacancies Derived from Metal‐Organic Frameworks for ppb‐Level Gas Sensing

et al. 2019

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Surmounting the inhomogeniety issue of gas sensors and realizing their reproducible ppb‐level gas sensing are highly desirable for widespread deployments of sensors to build networks in applications of industrial safety and indoor/outdoor air quality monitoring. Herein, a strategy is proposed to substantially improve the surface homogeneity of sensing materials and gas sensing performance via chip‐level pyrolysis of as‐grown ZIF‐L (ZIF stands for zeolitic imidazolate framework) films to porous and hierarchical zinc oxide (ZnO) nanosheets. A novel approach to generate adjustable oxygen vacancies is demonstrated, through which the electronic structure of sensing materials can be fine‐tuned. Their presence is thoroughly verified by various techniques. The sensing results demonstrate that the resultant oxygen vacancy‐abundant ZnO nanosheets exhibit significantly enhanced sensitivity and shortened response time toward ppb‐level carbon monoxide (CO) and volatile organic compounds encompassing 1,3‐butadiene, toluene, and tetrachloroethylene, which can be ascribed to several reasons including unpaired electrons, consequent bandgap narrowing, increased specific surface area, and hierarchical micro–mesoporous structures. This facile approach sheds light on the rational design of sensing materials via defect engineering, and can facilitate the mass production, commercialization, and large‐scale deployments of sensors with controllable morphology and superior sensing performance targeted for ultratrace gas detection.

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Hard and soft micromachining for BioMEMS: review of techniques and examples of applications in microfluidics and drug delivery

Ziaie

Baldi

Lei

et al. 2004

Advanced Drug Delivery Reviews

396

187

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Extracting phosphor‐scattered photons to improve white LED efficiency

Narendran

Freyssinier-Nova

et al. 2005

Physica Status Solidi (a)

284

167

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White light‐emitting diode (LED) luminous efficacy must improve significantly if LEDs are to become useful for general lighting. Phosphors commonly used in white LEDs backscatter more than half of the down‐converted light, of which a significant portion is eventually lost within the package, thus reducing the overall efficacy. This letter describes an experi‐mental study that shows by placing the phosphor away from the die, the backscattered photons can be extracted and the ef‐ficacy can be significantly increased. At low currents, the lu‐minous efficacy exceeded 80 lm/W. (© 2005 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

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Platinum Ion Uptake by Dendrimers: An NMR and AFM Study

et al. 2004

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The reaction of generation 2 and generation 4 poly(amidoamine) (PAMAM) dendrimers with K2PtCl2 was studied by several NMR methods. The time dependency of the Pt(II) complexation was followed with 195Pt NMR for both dendrimers and the equilibrium product was further characterized with (1)H NMR, and indirectly detected 13C NMR, in the case of the generation 2 dendrimer. After 2 days, a black precipitate of Pt(0) was observed, half the original 195Pt signal was lost, and approximately 20% of the initial Pt(II) was coordinated to the tertiary and secondary nitrogens of the generation 2 dendrimer. The uptake of Pt(II) by the generation 4 dendrimer was much slower, consistent with the steric crowding of the surface groups on the generation 4 dendrimer compared to the more open generation 2. After 10 days, 80% of the Pt(II) was deep within the generation 4 dendrimer; the remaining 20% was unreacted or bound near the surface nitrogens of a single dendrimer. The location and time course of the platinum ion uptake by the dendrimers provides valuable insight into the formation of Pt(0) nanoparticles made in the presence of dendrimers as stabilizers, visualized by atomic force microscopy.

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A Flat Lens with Tunable Phase Gradient by Using Random Access Reconfigurable Metamaterial

et al. 2015

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Yuandong Gu

Electrophoretic Analysis and Purification of Fluorescent Single-Walled Carbon Nanotube Fragments

Solid-state lighting: failure analysis of white LEDs

Life of LED-Based White Light Sources

ZnO Nanosheets Abundant in Oxygen Vacancies Derived from Metal‐Organic Frameworks for ppb‐Level Gas Sensing

Hard and soft micromachining for BioMEMS: review of techniques and examples of applications in microfluidics and drug delivery

Extracting phosphor‐scattered photons to improve white LED efficiency

Platinum Ion Uptake by Dendrimers: An NMR and AFM Study

A Flat Lens with Tunable Phase Gradient by Using Random Access Reconfigurable Metamaterial

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