Cheng Xu scite author profile

Photodynamic therapy (PDT) has emerged as an alternative and promising noninvasive treatment for cancer as well as non-cancer diseases, which involves the uptake of photosensitizers (PSs) by cancer cells followed by irradiation. The use of nanomaterials as carriers of PSs is a very promising approach to improve the development of PDT in clinical medicine. In this study, a novel folic acid-conjugated graphene oxide (GO) was strategically designed and prepared as targeting drug delivery system to achieve higher specificity. The second generation photosensitizer (PS) Chlorin e6 (Ce6) was effectively loaded into the system via hydrophobic interactions and π-π stacking. The nanocarriers can significantly increase the accumulation of Ce6 in tumor cells and lead to a remarkable photodynamic efficacy on MGC803 cells upon irradiation. These suggested that folic acid-conjugated GO loaded Ce6 had great potential as effective drug delivery system in targeting PDT.

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Photosensitizer-conjugated magnetic nanoparticles for in vivo simultaneous magnetofluorescent imaging and targeting therapy

Huang

et al. 2011

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Electrochemical performance of polycrystalline CuO nanowires as anode material for Li ion batteries

Chen

et al. 2009

Electrochimica Acta

178

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Mesoporous SnO₂@carbon core–shell nanostructures with superior electrochemical performance for lithium ion batteries

Chen

Yin²,

Mei³

et al. 2011

Nanotechnology

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SnO2@carbon nanostructure composites are prepared by a simple hydrothermal method. The composite exhibits unique structure, which consists of a mesoporous SnO2 core assembled of very small nanoparticles and a carbon shell with 10 nm thickness. The mesoporous SnO2@carbon core-shell nanostructures manifest superior electrochemical performance as an anode material for lithium ion batteries. The reversible specific capacity of the composite is about 908 mAh g(-1) for the first cycle and it can retain about 680 mAh g(-1) after 40 charge/discharge cycles at a current density of 0.3 C. Moreover, it shows excellent rate capability even at the high rate of 4.5 C. The enhanced performance was attributed to the mesoporous structure and a suitable carbon coating.

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Small quantities of cobalt deposited on tin oxide as anode material to improve performance of lithium-ion batteries

Mei

et al. 2012

Nanoscale

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In this report, we present a hybrid structure involving a small quantity of Co element uniformly deposited on porous SnO(2) spheres as stable and high capacity anode materials for lithium-ion batteries. Specifically, Co element deposited on SnO(2) nanomaterials exhibited an exceptional reversible capacity of 810 mA h g(-1) after 50 cycles which is higher than the pure SnO(2) electrode. Based on the experiments results, a possible mechanism for the change of this structure during lithium ion insertion/extraction was proposed. The minute quantity of Co element uniformly deposited on SnO(2) spherical structure could prevent Sn aggregation during charging-discharging, and high porosity of the spherical structure allowed the volume expansion during lithium ion alloying/dealloying. The SnO(2) deposited with small quantities of Co element as electrode facilitated improved performance of lithium ion batteries with higher energy densities.

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Cheng Xu

Folic Acid-conjugated Graphene Oxide loaded with Photosensitizers for Targeting Photodynamic Therapy

Photosensitizer-conjugated magnetic nanoparticles for in vivo simultaneous magnetofluorescent imaging and targeting therapy

Electrochemical performance of polycrystalline CuO nanowires as anode material for Li ion batteries

Mesoporous SnO₂@carbon core–shell nanostructures with superior electrochemical performance for lithium ion batteries

Small quantities of cobalt deposited on tin oxide as anode material to improve performance of lithium-ion batteries

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About

Cheng Xu

Folic Acid-conjugated Graphene Oxide loaded with Photosensitizers for Targeting Photodynamic Therapy

Photosensitizer-conjugated magnetic nanoparticles for in vivo simultaneous magnetofluorescent imaging and targeting therapy

Electrochemical performance of polycrystalline CuO nanowires as anode material for Li ion batteries

Mesoporous SnO2@carbon core–shell nanostructures with superior electrochemical performance for lithium ion batteries

Small quantities of cobalt deposited on tin oxide as anode material to improve performance of lithium-ion batteries

Contact Info

Product

Resources

About

Mesoporous SnO₂@carbon core–shell nanostructures with superior electrochemical performance for lithium ion batteries