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Graphene foam/hydrogel scaffolds for regeneration of peripheral nerve using ADSCs in a diabetic mouse model
Nano Research 2022, 15(4): 3434-3445
Published: 15 December 2021
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The functional recovery of peripheral nerve injury (PNI) is unsatisfactory, whereas diabetes mellitus (DM) and its related complications further attenuate the restoration of diabetic PNI (DPNI). Adipose-derived stem cells (ADSCs) are promising candidates for treatment of DPNI due to their abundant source, excellent differentiation and paracrine ability. Our results showed that ADSCs remarkably enhanced the proliferation and migration of Schwann cells and endothelial cells, and tube formation. Mechanistically, ADSCs could regulate Nrf2/HO-1, NF-κB and PI3K/AKT/mTOR signaling pathways, showing multiple functions in reducing oxidative stress and inflammation, and regulating cell metabolism, growth, survival, proliferation, angiogenesis, differentiation of Schwann cell and myelin formation. In current study, novel graphene foam (GF)/hydrogel-based scaffold was developed to deliver ADSCs for treatment of DPNI. GF/hydrogel scaffold exhibited excellent mechanical strength, suitable porous network, superior electrical conductivity, and good biocompatibility. In vitro results revealed that GF/hydrogel scaffold could obviously accelerate proliferation of Schwann cells. Moreover, in vivo experiments demonstrated that ADSCs-loaded GF/hydrogel scaffold significantly promoted the recovery of DPNI and inhibited the atrophy of targeted muscles, thus providing a novel and attractive therapeutic approach for DPNI patients.

Open Access Research Article Issue
Synthesis of hexagonal boron nitrides by chemical vapor deposition and their use as single photon emitters
Nano Materials Science 2021, 3(3): 291-312
Published: 24 April 2021
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Two-dimensional (2D) hexagonal boron nitride (hBN), due to its extraordinary thermal, chemical, and optical properties, has arisen as an enticing material for the research community to explore for various applications, including the use of site defects in hBN as single photon emitters (SPEs). In this review, we systematically summarize recent advanced strategies towards the controllable synthesis of 2D hBN using chemical vapor deposition, towards a full control of the domain size, orientation, morphology, layer number, and stacking order, etc. Moreover, we review the underlying mechanisms for single photon emission (SPE) in hBN and methods to selectively generate and tune the SPEs. Defects (e.g., carbon substituted defects) are discussed for the potential use as emission sites. We finally give an outlook of future challenges and opportunities on desirable hBN synthesis and further investigation of SPEs in hBN, targeting to utilize hBN as single photon emitters in an industrial scale.

Research Article Issue
Enhancement of MoTe2 near-infrared absorption with gold hollow nanorods for photodetection
Nano Research 2020, 13(6): 1636-1643
Published: 11 May 2020
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Downloads:47

Infrared (IR) light photodetection based on two dimensional (2D) materials of proper bandgap has attracted increasing attention. However, the weak IR absorption in 2D materials, due to their ultrathin attribute and indirect bandgap in multilayer structures, degrades their performance when used as IR photodetectors. In this work, we utilize the fact that few-layer MoTe2 flake has a near-IR (NIR) bandgap and demonstrate a ~ 60-fold enhancement of NIR response by introducing a gold hollow nanorods on the surface. Such gold hollow nanorods have distinct absorption peak located also at the NIR regime, therefore induces strong resonance, benefitting NIR absorption in MoTe2, resulting in strong near-field enhancement. With the evidence from steady and transient state optical spectra, we confirm that the enhancement of NIR response originates only photon absorption, rather than electron transport at interfaces as observed in other heterostructures, therefore, precluding the requirement of high-quality interfaces for commercial applications.

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