Xin Bai scite author profile

Nanoporous nickel hydroxide (Ni(OH)2) thin film was grown on the surface of ultrathin-graphite foam (UGF) via a hydrothermal reaction. The resulting free-standing Ni(OH)2/UGF composite was used as the electrode in a supercapacitor without the need for addition of either binder or metal-based current collector. The highly conductive 3D UGF network facilitates electron transport and the porous Ni(OH)2 thin film structure shortens ion diffusion paths and facilitates the rapid migration of electrolyte ions. An asymmetric supercapacitor was also made and studied with Ni(OH)2/UGF as the positive electrode and activated microwave exfoliated graphite oxide ('a-MEGO') as the negative electrode. The highest power density of the fully packaged asymmetric cell (44.0 kW/kg) was much higher (2-27 times higher), while the energy density was comparable to or higher, than high-end commercially available supercapacitors. This asymmetric supercapacitor had a capacitance retention of 63.2% after 10,000 cycles.

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Bioactive hydrogels for bone regeneration

Bai

Gao

Syed

et al. 2018

Bioactive Materials

410

266

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Bone self-healing is limited and generally requires external intervention to augment bone repair and regeneration. While traditional methods for repairing bone defects such as autografts, allografts, and xenografts have been widely used, they all have corresponding disadvantages, thus limiting their clinical use. Despite the development of a variety of biomaterials, including metal implants, calcium phosphate cements (CPC), hydroxyapatite, etc., the desired therapeutic effect is not fully achieved. Currently, polymeric scaffolds, particularly hydrogels, are of interest and their unique configurations and tunable physicochemical properties have been extensively studied. This review will focus on the applications of various cutting-edge bioactive hydrogels systems in bone regeneration, as well as their advantages and limitations. We will examine the composition and defects of the bone, discuss the current biomaterials for bone regeneration, and classify recently developed polymeric materials for hydrogel synthesis. We will also elaborate on the properties of desirable hydrogels as well as the fabrication techniques and different delivery strategies. Finally, the existing challenges, considerations, and the future prospective of hydrogels in bone regeneration will be outlined.

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Graphene‐Encapsulated Si on Ultrathin‐Graphite Foam as Anode for High Capacity Lithium‐Ion Batteries

et al. 2013

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Green Approach To Prepare Graphene-Based Composites with High Microwave Absorption Capacity

2011

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Reinforcement of hydrogenated carboxylated nitrile–butadiene rubber with exfoliated graphene oxide

Bai

Wan

Zhang

et al. 2011

Carbon

162

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Xin Bai

Nanoporous Ni(OH)₂ Thin Film on 3D Ultrathin-Graphite Foam for Asymmetric Supercapacitor

Bioactive hydrogels for bone regeneration

Graphene‐Encapsulated Si on Ultrathin‐Graphite Foam as Anode for High Capacity Lithium‐Ion Batteries

Green Approach To Prepare Graphene-Based Composites with High Microwave Absorption Capacity

Reinforcement of hydrogenated carboxylated nitrile–butadiene rubber with exfoliated graphene oxide

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Resources

About

Xin Bai

Nanoporous Ni(OH)2 Thin Film on 3D Ultrathin-Graphite Foam for Asymmetric Supercapacitor

Bioactive hydrogels for bone regeneration

Graphene‐Encapsulated Si on Ultrathin‐Graphite Foam as Anode for High Capacity Lithium‐Ion Batteries

Green Approach To Prepare Graphene-Based Composites with High Microwave Absorption Capacity

Reinforcement of hydrogenated carboxylated nitrile–butadiene rubber with exfoliated graphene oxide

Contact Info

Product

Resources

About

Nanoporous Ni(OH)₂ Thin Film on 3D Ultrathin-Graphite Foam for Asymmetric Supercapacitor