296 research outputs found
Salt-assisted vapor-liquid-solid growth of one-dimensional van der Waals materials
We have combined the benefits of two catalytic growth phenomena to form
nanostructures of transition metal trichalcogenides (TMTs), materials that are
challenging to grow in a nanostructured form by conventional techniques, as
required to exploit their exotic physics. Our growth strategy combines the
benefits of vapor-liquid-solid (VLS) growth in controlling dimension and growth
location, and salt-assisted growth for fast growth at moderate temperatures.
This salt-assisted VLS growth is enabled through use of a catalyst that
includes Au and an alkali metal halide. We demonstrate high yields of NbS3 1D
nanostructures with sub-ten nanometer diameter, tens of micrometers length, and
distinct 1D morphologies consisting of nanowires and nanoribbons with [010] and
[100] growth orientations, respectively. We present strategies to control the
growth location, size, and morphology. We extend the growth method to
synthesize other TMTs, NbSe3 and TiS3, as nanowires. Finally, we discuss the
growth mechanism based on the relationships we measure between the materials
characteristics (growth orientation, morphology and dimensions) and the growth
conditions (catalyst volume and growth time). Our study introduces
opportunities to expand the library of emerging 1D vdW materials and their
heterostructures with controllable nanoscale dimensions.Comment: 16 pages, 5 figure
Protocol for a proof-of-concept study evaluating Systematic Quality Improvement with Realtime Event Support (SQUIRES)
Physiological Benefits of Being Small in a Changing World: Responses of Coho Salmon (Oncorhynchus kisutch) to an Acute Thermal Challenge and a Simulated Capture Event
Evidence is building to suggest that both chronic and acute warm temperature exposure, as well as other anthropogenic perturbations, may select for small adult fish within a species. To shed light on this phenomenon, we investigated physiological and anatomical attributes associated with size-specific responses to an acute thermal challenge and a fisheries capture simulation (exercise+air exposure) in maturing male coho salmon (Oncorhynchus kisutch). Full-size females were included for a sex-specific comparison. A size-specific response in haematology to an acute thermal challenge (from 7 to 20°C at 3°C h−1) was apparent only for plasma potassium, whereby full-size males exhibited a significant increase in comparison with smaller males (‘jacks’). Full-size females exhibited an elevated blood stress response in comparison with full-size males. Metabolic recovery following exhaustive exercise at 7°C was size-specific, with jacks regaining resting levels of metabolism at 9.3±0.5 h post-exercise in comparison with 12.3±0.4 h for full-size fish of both sexes. Excess post-exercise oxygen consumption scaled with body mass in male fish with an exponent of b = 1.20±0.08. Jacks appeared to regain osmoregulatory homeostasis faster than full-size males, and they had higher ventilation rates at 1 h post-exercise. Peak metabolic rate during post-exercise recovery scaled with body mass with an exponent of b∼1, suggesting that the slower metabolic recovery in large fish was not due to limitations in diffusive or convective oxygen transport, but that large fish simply accumulated a greater ‘oxygen debt’ that took longer to pay back at the size-independent peak metabolic rate of ∼6 mg min−1 kg−1. Post-exercise recovery of plasma testosterone was faster in jacks compared with full-size males, suggesting less impairment of the maturation trajectory of smaller fish. Supporting previous studies, these findings suggest that environmental change and non-lethal fisheries interactions have the potential to select for small individuals within fish populations over time
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