Tianhang Liu scite author profile

Particle size is widely used to tune the electronic, optical, and catalytic properties of semiconductor nanocrystals. This contrasts with bulk semiconductors, where properties are tuned based on composition, either through doping or through band gap engineering of alloys. Ideally, one would like to control both size and composition of semiconductor nanocrystals. Here, we demonstrate production of silicon-germanium alloy nanoparticles by laser pyrolysis of silane and germane. We have used FTIR, TEM, XRD, EDX, SEM, and TOF-SIMS to conclusively determine their structure and composition. Moreover, we show that upon extended sonication in selected solvents, these bare nanocrystals can be stably dispersed without ligands, thereby providing the possibility of using them as an ink to make patterned films, free of organic surfactants, for device fabrication. The engineering of these SiGe alloy inks is an important step toward the low-cost fabrication of group IV nanocrystal optoelectronic, thermoelectric, and photovoltaic devices.

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Shadowgraph investigation of plasma shock wave evolution from Al target under 355-nm laser ablation

Liu¹,

Hao²,

Gao³

et al. 2014

Chinese Phys. B

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The propagation of a plasma shock wave generated from an Al target surface ablated by a nanosecond Nd:YAG laser operating at 355 nm in air is investigated at the different focusing positions of the laser beam by using a time-resolved shadowgraph imaging technique. The results show that in the case of a target surface set at the off-focus position, the condition of the focal point behind or in front of the target surface greatly influences the evolution of an Al plasma shock wave, and an ionization channel forms in the case of the focal point set in front of the target surface. Moreover, it is found that the shadowgraph with the evolution time around 100 ns shows that a protrusion appears at the front tip of the shock wave if the focal point is at the target surface. In addition, the calculated results of the expanding velocity of the shock wave front, the mass density, and pressure just behind the shock wave front are presented based on the shadowgraphs.

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Characteristics of plasma plume expansion from Al target induced by oblique incidence of 1064 and 355 nm nanosecond Nd : YAG laser

Liu¹,

Gao²,

Hao³

et al. 2013

J. Phys. D: Appl. Phys.

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Nonlinear optical properties of near-infrared region Ag₂S quantum dots pumped by nanosecond laser pulses

Liu

Dou

Liu

et al. 2015

Beilstein J. Nanotechnol.

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SummaryThis study investigates near-infrared region Ag2S quantum dots (QDs) and their nonlinear optical response under 532 nm nanosecond laser pulses. Our experimental result shows that nonlinear transmission is reduced from 0.084 to 0.04. The observed narrowing behavior of the output pulse width shows superior optical limiting. We discuss the physical mechanisms responsible for the nonlinear optical response of the QDs. The average size of the nanocrystals was 5.5 nm. Our results suggest the possibility of using these Ag2S QDs for photoelectric, biosensor, optical ranging, and self-adaptive technologies.

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Characteristics of shock wave from nanosecond laser-produced aluminum plasma in air

Liu

Gao

Liu

et al. 2013

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Characteristics of shock wave as well as its evolution of aluminum plasma produced by nanosecond YAG laser is investigated by time-resolved optical shadowgraph images. Experimental results show that shock wave is strongly influenced by the laser parameters and target arrangement. Shock waves from aluminum plasma and air plasma are observed simultaneously by shadowgraphs when the distance from lens to target surface (DLTS) is longer than the lens focal length, and a narrow bright "line" is observed in the region where shock waves from Al plasma and air plasma meet.The longitudinal expansion velocity of shock wave from Al plasma is largely influenced by DLTS and laser intensity as well, and it increases with laser intensity at the early stage of plasma expansion and reach to a maximum of 8.1×10 4 m/s.

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Tianhang Liu

Creating Ligand-Free Silicon Germanium Alloy Nanocrystal Inks

Shadowgraph investigation of plasma shock wave evolution from Al target under 355-nm laser ablation

Characteristics of plasma plume expansion from Al target induced by oblique incidence of 1064 and 355 nm nanosecond Nd : YAG laser

Nonlinear optical properties of near-infrared region Ag₂S quantum dots pumped by nanosecond laser pulses

Characteristics of shock wave from nanosecond laser-produced aluminum plasma in air

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Resources

About

Tianhang Liu

Creating Ligand-Free Silicon Germanium Alloy Nanocrystal Inks

Shadowgraph investigation of plasma shock wave evolution from Al target under 355-nm laser ablation

Characteristics of plasma plume expansion from Al target induced by oblique incidence of 1064 and 355 nm nanosecond Nd : YAG laser

Nonlinear optical properties of near-infrared region Ag2S quantum dots pumped by nanosecond laser pulses

Characteristics of shock wave from nanosecond laser-produced aluminum plasma in air

Contact Info

Product

Resources

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Nonlinear optical properties of near-infrared region Ag₂S quantum dots pumped by nanosecond laser pulses