Enling Hu scite author profile

Enling Hu

5Publications

230Citation Statements Received

54Citation Statements Given

How they've been cited

611

225

How they cite others

294

Affiliations

Southwest University, Hong Kong Polytechnic University, Sericultural Research Institute

Publications

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Self‐Propelling Janus Particles for Hemostasis in Perforating and Irregular Wounds with Massive Hemorrhage

et al. 2020

Adv Funct Materials

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Achieving rapid and safe control of perforating and irregular hemorrhage, defined as bleeding wounds with irregular external and internal wound shape, located deep within complex and covert hemorrhage sites, is vital to decrease the risk of mortality during prehospital treatments and surgical procedures. However, current hemostatic materials do not control hemorrhage effectively as their ability to access the bleeding source and coagulate blood is limited. Here, a biphasic Janus self-propelled hemostatic particle (MSS@CaCO 3) is prepared via uniaxial growth of flower-like calcium carbonate crystal (CaCO 3) on negatively-modified-microporous starch (MSS). The as-synthesized hemostatic particle (MSS@CaCO 3 T) is loaded with thrombin and powered by the internal component CaCO 3, with the collaborative use of protonated tranexamic acid. These particles are capable of traveling against the blood flow allowing them to access deep bleeding sites, inducing synergistic blood coagulation effects to effectively halt hemorrhaging. The self-propelling Janus hemostatic particle is sufficiently available in the deep bleeding sites of liver and femoral artery hemorrhage models, wherein the hemorrhage is rapidly controlled in ≈50 s and ≈3 min, respectively. To the authors' knowledge, this is the first attempt of controlling hemorrhage using Janus hemostatic particles with a self-propelling property.

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Konjac glucomannan/graphene oxide hydrogel with enhanced dyes adsorption capability for methyl blue and methyl orange

Gan

Shang

et al. 2015

Applied Surface Science

183

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Catalytic ozonation of simulated textile dyeing wastewater using mesoporous carbon aerogel supported copper oxide catalyst

Shang

et al. 2016

Journal of Cleaner Production

180

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Recent advances in materials for hemostatic management

Liu

et al. 2021

Biomater. Sci.

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Regeneration and reuse of highly polluting textile dyeing effluents through catalytic ozonation with carbon aerogel catalysts

Shang

Tao

et al. 2016

Journal of Cleaner Production

104

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Enling Hu

Self‐Propelling Janus Particles for Hemostasis in Perforating and Irregular Wounds with Massive Hemorrhage

Konjac glucomannan/graphene oxide hydrogel with enhanced dyes adsorption capability for methyl blue and methyl orange

Catalytic ozonation of simulated textile dyeing wastewater using mesoporous carbon aerogel supported copper oxide catalyst

Recent advances in materials for hemostatic management

Regeneration and reuse of highly polluting textile dyeing effluents through catalytic ozonation with carbon aerogel catalysts

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