Hao Wang scite author profile

Nanodrug-based cancer therapy has been actively developed in the past decades. The main challenges faced by nanodrugs include poor drug loading capacity, rapid clearance from blood circulation, and low antitumor efficiency with high risk of recurrence. In this work, red blood cell (RBC) membrane camouflaged hollow mesoporous Prussian blue nanoparticles (HMPB@RBC NPs) are fabricated for combination therapy of cancer. The stability, immune evading capacity, and blood retention time of HMPB@RBC NPs are significantly enhanced compared with those of bare HMPB NPs. Doxorubicin (DOX), as a model drug is encapsulated within HMPB@RBC NPs with loading capacity up to 130% in weight. In addition, DOX loaded HMPB@RBC NPs show pH-/photoresponsive release. The in vivo studies demonstrate the outstanding performance of DOX@HMPB@RBC NPs in synergistic photothermal-/chemotherapy of cancer.

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Highly Efficient Luminescent Metal–Organic Framework for the Simultaneous Detection and Removal of Heavy Metals from Water

Rudd

Wang

Fuentes-Fernandez

et al. 2016

ACS Appl. Mater. Interfaces

353

125

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We have designed and synthesized an isoreticular series of luminescent metal-organic frameworks (LMOFs) by incorporating a strongly emissive molecular fluorophore and functionally diverse colinkers into Zn-based structures. The three-dimensional porous networks of LMOF-261, -262, and -263 represent a unique/new type of nets, classified as a 2-nodal, (4,4)-c net (mot-e type) with 4-fold, class IIIa interpenetration. All compounds crystallize in a body-centered tetragonal crystal system (space group I4/a). A systematic study has been implemented to analyze their interactions with heavy metals. LMOF-263 exhibits impressive water stability, high porosity, and strong luminescence, making it an excellent candidate as a fluorescent chemical sensor and adsorbent for aqueous contaminants. It is extremely responsive to toxic heavy metals at a parts per billion level (3.3 ppb Hg, 19.7 ppb Pb) and demonstrates high selectivity for heavy metals over light metals, with detection ratios of 167.4 and 209.5 for Hg/Ca and Hg/Mg, respectively. Mixed-metal adsorption experiments also show that LMOF-263 selectively adsorbs Hg over other heavy metal ions in addition to light metals. The Pb K value for LMOF-263 (55,017 M) is the highest among LMOFs reported to date, and the Hg K value is the second highest (459,446 M). LMOF-263 exhibits a maximum adsorption capacity of 380 mg Hg/g. The Hg adsorption process follows pseudo-second-order kinetics, removing 99.1% of the metal within 30 min. An in situ XPS study provides insight to help understand the interaction mechanism between Hg and LMOF-263. No other MOFs have demonstrated such a high performance in both the detection and the capture of Hg from aqueous solution.

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Si photocathode with Ag-supported dendritic Cu catalyst for CO₂reduction

Gurudayal

Beeman

Bullock

et al. 2019

Energy Environ. Sci.

109

116

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Hao Wang

Cell Membrane Camouflaged Hollow Prussian Blue Nanoparticles for Synergistic Photothermal‐/Chemotherapy of Cancer

Highly Efficient Luminescent Metal–Organic Framework for the Simultaneous Detection and Removal of Heavy Metals from Water

Si photocathode with Ag-supported dendritic Cu catalyst for CO₂reduction

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Hao Wang

Cell Membrane Camouflaged Hollow Prussian Blue Nanoparticles for Synergistic Photothermal‐/Chemotherapy of Cancer

Highly Efficient Luminescent Metal–Organic Framework for the Simultaneous Detection and Removal of Heavy Metals from Water

Si photocathode with Ag-supported dendritic Cu catalyst for CO2reduction

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Si photocathode with Ag-supported dendritic Cu catalyst for CO₂reduction