Weifeng Li scite author profile

Density functional theory calculations have been performed to investigate the binding and diffusion behavior of Li in phosphorene. Our studies reveal the following findings: (1) Li atom forms strong binding with phosphorus atoms and exists in the cationic state; (2) the shallow energy barrier (0.08 eV) of Li diffusion on monolayer phosphorene along zigzag direction leads to an ultrahigh diffusivity, which is estimated to be 10(2) (10(4)) times faster than that on MoS2 (graphene) at room temperature; (3) the large energy barrier (0.68 eV) along armchair direction results in a nearly forbidden diffusion, and such strong diffusion anisotropy is absent in graphene and MoS2; (4) a remarkably large average voltage of 2.9 V is predicted in the phosphorene-based Li-ion battery; and (5) a semiconducting to metallic transition induced by Li intercalation of phosphorene gives rise to a good electrical conductivity, ideal for use as an electrode. Given these advantages, it is expected that phosphorene will present abundant opportunities for applications in novel electronic device and lithium-ion battery with a high rate capability and high charging voltage.

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Effects of different selenium source on selenium distribution, loin quality and antioxidant status in finishing pigs

Zhan

Wang

Zhao

et al. 2007

Animal Feed Science and Technology

161

128

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Tunable, Strain-Controlled Nanoporous MoS₂ Filter for Water Desalination

et al. 2016

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The deteriorating state of global fresh water resources represents one of the most serious challenges that scientists and policymakers currently face. Desalination technologies, which are designed to extract potable water from the planet's bountiful stores of seawater, could serve to alleviate much of the stress that presently plagues fresh water supplies. In recent decades, desalination methods have improved via water-filtering architectures based on nanoporous graphene filters and artificial membranes integrated with biological water channels. Here, we report the auspicious performance (in simulations) of an alternative nanoporous desalination filter constructed from a MoS2 nanosheet. In striking contrast to graphene-based filters, we find that the "open" and "closed" states of the MoS2 filter can be regulated by the introduction of mechanical strain, yielding a highly tunable nanopore interface. By applying lateral strain to the MoS2 filter in our simulations, we see that the transition point between "open" and "closed" states occurs under tension that induces about 6% cross-sectional expansion in the membrane (6% strain); the open state of the MoS2 filter demonstrates high water transparency and a strong salt filtering capability even under 12% strain. Our results thus demonstrate the promise of a controllable nanoporous MoS2 desalination filter, wherein the morphology and size of the central nanopore can be precisely regulated by tensile strain. These findings support the design and proliferation of tunable nanodevices for filtration and other applications.

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Morphological classification of low viscosity drop bag breakup in a continuous air jet stream

Zhao

Liu

et al. 2010

121

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To investigate the effect of Rayleigh–Taylor wave number in the region of maximum cross stream dimension (NRT) on drop breakup morphology, the breakup properties of accelerating low viscosity liquid drops (water and ethanol drops, diameter=1.2–6.6 mm, Weber number=10–80) were investigated using high-speed digital photography. The results of morphological analysis show a good correlation of the observed breakup type with NRT; bag breakup occurred when NRT was 1/3−1, bag-stamen breakup at 1–2, and dual-bag breakup at 2–3. The number of nodes in bag breakup, bag-stamen breakup, and dual-bag breakup all increased with Weber number. The experimental results are consistent with the model estimates and in good agreement with those reported in the literature.

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Revolutionizing biodegradable metals

et al. 2009

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Spatial pattern of impervious surfaces and their impacts on land surface temperature in Beijing, China

Xiao

Ouyang

Zheng

et al. 2007

Journal of Environmental Sciences

208

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Resveratrol improves learning and memory in normally aged mice through microRNA-CREB pathway

Zhao

et al. 2013

Biochemical and Biophysical Research Communications

157

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Resveratrol (RSV) is a natural compound found in grapes and red wine. It has been well known for its beneficial effects as a dietary supplement in prevention of cardiovascular diseases and cancer. Recently, in vitro studies have reported the neuroprotective role of RSV in neurodegenerative process in Alzheimer's disease (AD). However, in vivo effects of RSV on the decline of brain function accompanying the aging process, especially those on cognitive loss, have not been not investigated. Here we report that, after intraventricular injection of RSV for one week in 8-9 month-old mice, the long-term memory formation and the LTP induction from hippocampus CA1 were improved. The RSV enhancement effects were blocked in SIRT1 mutant mice. Additional experiments suggest that RSV effects are likely to be mediated through reduced expressions of miR-134 and miR-124, which may in turn up-regulate CREB levels to subsequently promote BDNF synthesis. These findings demonstrate a role for RSV in cognition and a microRNA-CREB-BDNF mechanism by which RSV regulates these processes, demonstrating its value as a potential therapeutic target against CNS disorders in aging.

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A multiscale analysis of urbanization effects on ecosystem services supply in an urban megaregion

Wang

Zhou

Pickett

et al. 2019

Science of The Total Environment

269

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Weifeng Li

Ultrafast and Directional Diffusion of Lithium in Phosphorene for High-Performance Lithium-Ion Battery

Effects of different selenium source on selenium distribution, loin quality and antioxidant status in finishing pigs

Tunable, Strain-Controlled Nanoporous MoS₂ Filter for Water Desalination

Morphological classification of low viscosity drop bag breakup in a continuous air jet stream

Revolutionizing biodegradable metals

Spatial pattern of impervious surfaces and their impacts on land surface temperature in Beijing, China

Resveratrol improves learning and memory in normally aged mice through microRNA-CREB pathway

A multiscale analysis of urbanization effects on ecosystem services supply in an urban megaregion

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Weifeng Li

Ultrafast and Directional Diffusion of Lithium in Phosphorene for High-Performance Lithium-Ion Battery

Effects of different selenium source on selenium distribution, loin quality and antioxidant status in finishing pigs

Tunable, Strain-Controlled Nanoporous MoS2 Filter for Water Desalination

Morphological classification of low viscosity drop bag breakup in a continuous air jet stream

Revolutionizing biodegradable metals

Spatial pattern of impervious surfaces and their impacts on land surface temperature in Beijing, China

Resveratrol improves learning and memory in normally aged mice through microRNA-CREB pathway

A multiscale analysis of urbanization effects on ecosystem services supply in an urban megaregion

Contact Info

Product

Resources

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Tunable, Strain-Controlled Nanoporous MoS₂ Filter for Water Desalination