Zhiheng Xiao scite author profile

In this study, waste cotton fibers were environmentally reused. First, they were milled into fine powders with particle sizes of around 30 µm and dyed for use as pigments. Dyeing properties of the cellulose powder were explored by determining the dye uptake, K/S value, and bath ratio. Among the various samples, powders with owf (on weight of fabric) of 0% dye (pristine cellulose powder), and 10% and 50% dyed powders were selected; and these powders were characterized by several methods to compare the properties of dyed and undyed cellulose. The surface morphologies of the powders were observed with a scanning electron microscope (SEM). Combining the SEM images with the Brunauer-Emmet-Teller (BET) data, it was found that the smaller the particle size, the larger is the surface area. In addition, the X-ray photoelectron spectroscopy (XPS) results revealed that with increasing dye concentration, the intensity of the C peak reduced, while those of O and S increased. Moreover, the main components of the dyed and undyed cellulose powders were found to be almost the same from the Fourier-transform infrared spectroscopy (FTIR) results. Finally, the dynamic mechanical analysis (DMA) data revealed that the loss modulus was significantly larger than the storage modulus, demonstrating that the material mainly undergoes viscous deformation.

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Coloured powder from coloured textile waste for fabric printing application

Gan

Xiao

Zhang

et al. 2020

Cellulose

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The rapid production of multiple transition metal carbides via microwave combustion under ambient conditions

Jiang

Xiao

et al. 2020

Nanoscale

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Transition Bimetal Based MOF Nanosheets for Robust Aqueous Zn Battery

Wan

Xiao

et al. 2020

Front. Mater.

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High-performance, good stability, low-cost, and environmentally friendly batteries are important for multifunctional electronics and electric vehicles. Compared with the high-energy density lithium-ion batteries, aqueous rechargeable battery has been extensively researched due to high safety, low cost and much better rate performance. Here, we report a one-step approach to fabricate porous Ni-Cu metal-organic framework (MOF) nanosheet arrays structures for stable energy storage with a high-energy (71.2 mWh cm −3) and high-stability (capacity retention of ≈91% after 2,500 cycles) performance. Furthermore, we synthesized various porous homogeneous Ni-Co, Ni-Zn, Ni-Fe and Ni-Mn bimetal MOF structures with high surface area and conductivity utilizing this rational design. This work provides a simple efficient strategy for constructing porous homogeneous bimetal MOF nanosheet arrays with high energy and stability performance, holding a great potential for future portable electronics.

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Zhiheng Xiao

A universal construction of robust interface between 2D conductive polymer and cellulose for textile supercapacitor

Dyeing and Characterization of Cellulose Powder Developed from Waste Cotton

Coloured powder from coloured textile waste for fabric printing application

The rapid production of multiple transition metal carbides via microwave combustion under ambient conditions

Transition Bimetal Based MOF Nanosheets for Robust Aqueous Zn Battery

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