Teng Li scite author profile

MoS2 nanosheets functionalized with poly-ethylene glycol are for the first time used as a multifunctional drug delivery system with high drug loading capacities. Using doxorubicin as the model drug and taking advantages of the strong near-infrared absorbance of MoS2, combined photothermal and chemotherapy of cancer is realized in animal experiments, achieving excellent synergistic anti-tumor effect upon systemic administration.

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Processing bulk natural wood into a high-performance structural material

Song

Chen

Zhu

et al. 2018

Nature

1,183

792

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Synthetic structural materials with exceptional mechanical performance suffer from either large weight and adverse environmental impact (for example, steels and alloys) or complex manufacturing processes and thus high cost (for example, polymer-based and biomimetic composites). Natural wood is a low-cost and abundant material and has been used for millennia as a structural material for building and furniture construction. However, the mechanical performance of natural wood (its strength and toughness) is unsatisfactory for many advanced engineering structures and applications. Pre-treatment with steam, heat, ammonia or cold rolling followed by densification has led to the enhanced mechanical performance of natural wood. However, the existing methods result in incomplete densification and lack dimensional stability, particularly in response to humid environments, and wood treated in these ways can expand and weaken. Here we report a simple and effective strategy to transform bulk natural wood directly into a high-performance structural material with a more than tenfold increase in strength, toughness and ballistic resistance and with greater dimensional stability. Our two-step process involves the partial removal of lignin and hemicellulose from the natural wood via a boiling process in an aqueous mixture of NaOH and NaSO followed by hot-pressing, leading to the total collapse of cell walls and the complete densification of the natural wood with highly aligned cellulose nanofibres. This strategy is shown to be universally effective for various species of wood. Our processed wood has a specific strength higher than that of most structural metals and alloys, making it a low-cost, high-performance, lightweight alternative.

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PEGylated WS₂ Nanosheets as a Multifunctional Theranostic Agent for in vivo Dual‐Modal CT/Photoacoustic Imaging Guided Photothermal Therapy

et al. 2013

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A new generation of photothermal theranostic agents is developed based on PEGylated WS2 nanosheets. Bimodal in vivo CT/photoacoustic imaging reveals strong tumor contrast after either intratumoral or intravenous injection of WS2 -PEG. In vivo photothermal treatment is then conducted in a mouse tumor model, achieving excellent therapeutic efficacy with complete ablation of tumors. This work promises further exploration of transition-metal dichalcogenides for biomedical applications, such as cancer imaging and therapy.

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A review on mechanics and mechanical properties of 2D materials—Graphene and beyond

Akinwande

Brennan

Bunch

et al. 2017

Extreme Mechanics Letters

1,092

649

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Since the first successful synthesis of graphene just over a decade ago, a variety of twodimensional (2D) materials (e.g., transition metal-dichalcogenides, hexagonal boron-nitride, etc.) have been discovered. Among the many unique and attractive properties of 2D materials, mechanical properties play important roles in manufacturing, integration and performance for their potential applications. Mechanics is indispensable in the study of mechanical properties, both experimentally and theoretically. The coupling between the mechanical and other physical properties (thermal, electronic, optical) is also of great interest in exploring novel applications, where mechanics has to be combined with condensed matter physics to establish a scalable theoretical framework. Moreover, mechanical interactions between 2D materials and various substrate materials are essential for integrated device applications of 2D materials, for which the mechanics of interfaces (adhesion and friction) has to be developed for the 2D materials. Here we review recent theoretical and experimental works related to mechanics and mechanical properties of 2D materials. While graphene is the most studied 2D material to date, we expect continual growth of interest in the mechanics of other 2D materials beyond graphene.

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Structure–property–function relationships of natural and engineered wood

et al. 2020

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Teng Li

Drug Delivery with PEGylated MoS₂ Nano‐sheets for Combined Photothermal and Chemotherapy of Cancer

Processing bulk natural wood into a high-performance structural material

PEGylated WS₂ Nanosheets as a Multifunctional Theranostic Agent for in vivo Dual‐Modal CT/Photoacoustic Imaging Guided Photothermal Therapy

A review on mechanics and mechanical properties of 2D materials—Graphene and beyond

Structure–property–function relationships of natural and engineered wood

Contact Info

Product

Resources

About

Teng Li

Drug Delivery with PEGylated MoS2 Nano‐sheets for Combined Photothermal and Chemotherapy of Cancer

Processing bulk natural wood into a high-performance structural material

PEGylated WS2 Nanosheets as a Multifunctional Theranostic Agent for in vivo Dual‐Modal CT/Photoacoustic Imaging Guided Photothermal Therapy

A review on mechanics and mechanical properties of 2D materials—Graphene and beyond

Structure–property–function relationships of natural and engineered wood

Contact Info

Product

Resources

About

Drug Delivery with PEGylated MoS₂ Nano‐sheets for Combined Photothermal and Chemotherapy of Cancer

PEGylated WS₂ Nanosheets as a Multifunctional Theranostic Agent for in vivo Dual‐Modal CT/Photoacoustic Imaging Guided Photothermal Therapy