Chenjuan Liu scite author profile

Developing efficient, stable, and cost-effective photosystems to split water into hydrogen and oxygen using sunlight is of paramount importance for future production of fuels and chemicals from renewable sources. However, the high cost of current systems limits their widespread application. Here, we developed a highly efficient TiC-supported Pt nanocluster catalyst for hydrogen evolution reaction that rivals the commercial Pt/C catalyst with $5 times less Pt loading. Combining with the NiFe-layered double hydroxide for oxygen evolution reaction and driven for the first time by a monolithic perovskite/silicon tandem solar cell, we achieved a solar water splitting system with 18.7% solar-to-hydrogen conversion efficiency, setting a record for water splitting systems with earthabundant and inexpensive photo-absorbers.

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Physicochemical, antioxidant properties of giant croaker (Nibea japonica) swim bladders collagen and wound healing evaluation

Chen

Jin

Yang

et al. 2019

International Journal of Biological Macromolecules

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Ink-jet printed highly conductive pristine graphene patterns achieved with water-based ink and aqueous doping processing

Majee

Liu

et al. 2017

Carbon

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Constraining Si Particles within Graphene Foam Monolith: Interfacial Modification for High‐Performance Li⁺ Storage and Flexible Integrated Configuration

Younesi

Pan

et al. 2016

Adv Funct Materials

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Pulverization of electrode materials and loss of electrical contact have been identified as the major causes for the performance deterioration of alloy anodes in Li‐ion batteries. This study presents the hierarchical arrangement of spatially confining silicon nanoparticles (Si NPs) within graphene foam (GF) for alleviating these issues. Through a freeze‐drying method, the highly oriented GF monolith is engineered to fully encapsulate the Si NPs, serving not only as a robust framework with the well‐accessible thoroughfares for electrolyte percolation but also a physical blocking layer to restrain Si from direct exposure to the electrolyte. In return, the pillar effect of Si NPs prevents the graphene sheets from restacking while preserving the highly efficient electron/Li+ transport channels. When evaluated as a binder‐free anode, impressive cycle performance is realized in both half‐cell and full‐cell configurations. Operando X‐ray diffraction and in‐house X‐ray photoelectron spectroscopy confirm the pivotal protection of GF to sheathe the most volume‐expanded lithiated phase (Li15Si4) at room temperature. Furthermore, a free‐standing composite film is developed through readjusting the pore size in GF/Si monolith and directly integrated with nanocellulose membrane (NCM) separator. Because of the good electrical conductivity and structural integrity of the GF monolith as well as the flexibility of the NCM separator, the as‐developed GF/Si‐NCM electrode showcases the potential use in the flexible electronic devices.

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On the Stability of NaO₂ in Na–O₂ Batteries

Liu

Carboni

Brant

et al. 2018

ACS Appl. Mater. Interfaces

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Na-O batteries are regarded as promising candidates for energy storage. They have higher energy efficiency, rate capability, and chemical reversibility than Li-O batteries; in addition, sodium is cheaper and more abundant compared to lithium. However, inconsistent observations and instability of discharge products have inhibited the understanding of the working mechanism of this technology. In this work, we have investigated a number of factors that influence the stability of the discharge products. By means of in operando powder X-ray diffraction study, the influence of oxygen, sodium anode, salt, solvent, and carbon cathode were investigated. The Na metal anode and an ether-based solvent are the main factors that lead to the instability and decomposition of NaO in the cell environment. This fundamental insight brings new information on the working mechanism of Na-O batteries.

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Chenjuan Liu

Solar Water Splitting with Perovskite/Silicon Tandem Cell and TiC-Supported Pt Nanocluster Electrocatalyst

Physicochemical, antioxidant properties of giant croaker (Nibea japonica) swim bladders collagen and wound healing evaluation

Ink-jet printed highly conductive pristine graphene patterns achieved with water-based ink and aqueous doping processing

Constraining Si Particles within Graphene Foam Monolith: Interfacial Modification for High‐Performance Li⁺ Storage and Flexible Integrated Configuration

On the Stability of NaO₂ in Na–O₂ Batteries

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Resources

About

Chenjuan Liu

Solar Water Splitting with Perovskite/Silicon Tandem Cell and TiC-Supported Pt Nanocluster Electrocatalyst

Physicochemical, antioxidant properties of giant croaker (Nibea japonica) swim bladders collagen and wound healing evaluation

Ink-jet printed highly conductive pristine graphene patterns achieved with water-based ink and aqueous doping processing

Constraining Si Particles within Graphene Foam Monolith: Interfacial Modification for High‐Performance Li+ Storage and Flexible Integrated Configuration

On the Stability of NaO2 in Na–O2 Batteries

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Product

Resources

About

Constraining Si Particles within Graphene Foam Monolith: Interfacial Modification for High‐Performance Li⁺ Storage and Flexible Integrated Configuration

On the Stability of NaO₂ in Na–O₂ Batteries