Xi Huang scite author profile

van der Waals layered structures, notably the transitional metal dichalcogenides (TMDs) and TMD-based heterostructures, have recently attracted immense interest due to their unique physical properties and potential applications in electronics, optoelectronics, and energy harvesting. Despite the recent progress, it is still a challenge to perform comprehensive characterizations of critical properties of these layered structures, including crystal structures, chemical dynamics, and interlayer coupling, using a single characterization platform. In this study, we successfully developed a multimodal nonlinear optical imaging method to characterize these critical properties of molybdenum disulfide (MoS2) and MoS2-based heterostructures. Our results demonstrate that MoS2 layers exhibit strong four-wave mixing (FWM), sum-frequency generation (SFG), and second-harmonic generation (SHG) nonlinear optical characteristics. We believe this is the first observation of FWM and SFG from TMD layers. All three kinds of optical nonlinearities are sensitive to layer numbers, crystal orientation, and interlayer coupling. The combined and simultaneous SHG/SFG-FWM imaging not only is capable of rapid evaluation of crystal quality and precise determination of odd-even layers but also provides in situ monitoring of the chemical dynamics of thermal oxidation in MoS2 and interlayer coupling in MoS2-graphene heterostructures. This method has the advantages of versatility, high fidelity, easy operation, and fast imaging, enabling comprehensive characterization of van der Waals layered structures for fundamental research and practical applications.

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Controllable synthesis of porous nickel–cobalt oxide nanosheets for supercapacitors

Huang

et al. 2012

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Vertically aligned nickel-cobalt oxide (NCO) nanosheets with porous structure were successfully synthesized on FTO substrates by a simple electrochemical method without any templates. Cyclic voltammetry (CV) and galvanostatic charge/discharge measurements show that the porous NCO nanosheets have an ideal capacitive performance and long-term stability. With an optimum amount of Ni, the specific capacitance for the NCOs could reach as high as 453 F g À1 at a scan rate of 5 mV s À1 and 506 F g À1 at a current density of 1 A g À1 , showing an improvement of around 50% compared with cobalt oxide. Furthermore, a symmetric supercapacitor based on two NCO electrodes exhibits a maximum specific capacitance of 89.2 F g À1 at 0.17 A g À1 .

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Two-photon polymerization: investigation of chemical and mechanical properties of resins using Raman microspectroscopy

et al. 2014

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In this study, the degree of conversion (DC) of an acrylic-based resin (IP-L 780) in two-photon polymerization (TPP) is systematically investigated via Raman microspectroscopy. A quantitative relationship between TPP laser parameters and the DC of the resin is established. Nonlinear increase in DC with increased laser average power is observed. The resin DC is more sensitive to the laser average power than the laser writing speed. Nanoindentation was employed to correlate the results obtained from Raman microspectroscopy with the mechanical properties of microstructures fabricated by TPP. At constant writing speeds, microstructures fabricated with high laser average powers possess high hardness and high reduced Young's modulus (RYM), indicating high DCs. The results are in line with high DCs measured under the same TPP parameters in Raman microspectroscopy. Raman microspectroscopy is proved to be an effective, rapid, and nondestructive method characterizing microstructures fabrication by TPP.

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Highly Efficient and Recyclable Carbon Soot Sponge for Oil Cleanup

Gao

Zhou

Xiong

et al. 2014

ACS Appl. Mater. Interfaces

161

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Carbon soot (CS) has the advantages of cost-effectiveness and production scalability over other carbons (i.e., graphene, CNTs) in their synthesis. However, little research has been conducted to explore the potential applications of CS. In this study, we demonstrated that a common daily waste-CS-can be used for developing a cost-effective absorbent (CS-sponge) to remove oil contaminants from water. The CS was synthesized by an ethylene-oxygen combustion flame. The CS-sponge was prepared via a dip-coating method. Without further surface modification and pretreatments, the CS-sponge demonstrates high absorption capacities (up to 80 times its own weight) for a broad spectrum of oils and organic solvents with a recyclability of more than 10 times. These research results show evidence that the CS-sponge is promising in environmental remediation for large-scale, low-cost removal of oils from water.

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Label-free characterization of exosome via surface enhanced Raman spectroscopy for the early detection of pancreatic cancer

Carmicheal

Hayashi

Huang

et al. 2019

Nanomedicine: Nanotechnology, Biology and Medicine

126

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Xi Huang

Multimodal Nonlinear Optical Imaging of MoS₂ and MoS₂-Based van der Waals Heterostructures

Controllable synthesis of porous nickel–cobalt oxide nanosheets for supercapacitors

Two-photon polymerization: investigation of chemical and mechanical properties of resins using Raman microspectroscopy

Highly Efficient and Recyclable Carbon Soot Sponge for Oil Cleanup

Label-free characterization of exosome via surface enhanced Raman spectroscopy for the early detection of pancreatic cancer

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Xi Huang

Multimodal Nonlinear Optical Imaging of MoS2 and MoS2-Based van der Waals Heterostructures

Controllable synthesis of porous nickel–cobalt oxide nanosheets for supercapacitors

Two-photon polymerization: investigation of chemical and mechanical properties of resins using Raman microspectroscopy

Highly Efficient and Recyclable Carbon Soot Sponge for Oil Cleanup

Label-free characterization of exosome via surface enhanced Raman spectroscopy for the early detection of pancreatic cancer

Contact Info

Product

Resources

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Multimodal Nonlinear Optical Imaging of MoS₂ and MoS₂-Based van der Waals Heterostructures