Your search keyword '"Bilu Liu"' showing total 10 results

1. Deciphering the contributing motifs of reconstructed cobalt (II) sulfides catalysts in Li-CO2 batteries

Author

Yingqi Liu, Zhiyuan Zhang, Junyang Tan, Biao Chen, Bingyi Lu, Rui Mao, Bilu Liu, Dashuai Wang, Guangmin Zhou, and Hui-Ming Cheng

Subjects

Science

Abstract

Abstract Developing highly efficient catalysts is significant for Li-CO2 batteries. However, understanding the exact structure of catalysts during battery operation remains a challenge, which hampers knowledge-driven optimization. Here we use X-ray absorption spectroscopy to probe the reconstruction of CoSx (x = 8/9, 1.097, and 2) pre-catalysts and identify the local geometric ligand environment of cobalt during cycling in the Li-CO2 batteries. We find that different oxidized states after reconstruction are decisive to battery performance. Specifically, complete oxidation on CoS1.097 and Co9S8 leads to electrochemical performance deterioration, while oxidation on CoS2 terminates with Co-S4-O2 motifs, leading to improved activity. Density functional theory calculations show that partial oxidation contributes to charge redistributions on cobalt and thus facilitates the catalytic ability. Together, the spectroscopic and electrochemical results provide valuable insight into the structural evolution during cycling and the structure-activity relationship in the electrocatalyst study of Li-CO2 batteries.

Published

2024

2. A corrosion-resistant RuMoNi catalyst for efficient and long-lasting seawater oxidation and anion exchange membrane electrolyzer

Author

Xin Kang, Fengning Yang, Zhiyuan Zhang, Heming Liu, Shiyu Ge, Shuqi Hu, Shaohai Li, Yuting Luo, Qiangmin Yu, Zhibo Liu, Qiang Wang, Wencai Ren, Chenghua Sun, Hui-Ming Cheng, and Bilu Liu

Subjects

Science

Abstract

Abstract Direct seawater electrolysis is promising for sustainable hydrogen gas (H2) production. However, the chloride ions in seawater lead to side reactions and corrosion, which result in a low efficiency and poor stability of the electrocatalyst and hinder the use of seawater electrolysis technology. Here we report a corrosion-resistant RuMoNi electrocatalyst, in which the in situ-formed molybdate ions on its surface repel chloride ions. The electrocatalyst works stably for over 3000 h at a high current density of 500 mA cm−2 in alkaline seawater electrolytes. Using the RuMoNi catalyst in an anion exchange membrane electrolyzer, we report an energy conversion efficiency of 77.9% and a current density of 1000 mA cm−2 at 1.72 V. The calculated price per gallon of gasoline equivalent (GGE) of the H2 produced is $ 0.85, which is lower than the 2026 technical target of $ 2.0/GGE set by the United Stated Department of Energy, thus, suggesting practicability of the technology.

Published

2023

3. Ultrafast charge transfer in mixed-dimensional WO3-x nanowire/WSe2 heterostructures for attomolar-level molecular sensing

Author

Qian Lv, Junyang Tan, Zhijie Wang, Peng Gu, Haiyun Liu, Lingxiao Yu, Yinping Wei, Lin Gan, Bilu Liu, Jia Li, Feiyu Kang, Hui-Ming Cheng, Qihua Xiong, and Ruitao Lv

Subjects

Science

Abstract

Abstract Developing efficient noble-metal-free surface-enhanced Raman scattering (SERS) substrates and unveiling the underlying mechanism is crucial for ultrasensitive molecular sensing. Herein, we report a facile synthesis of mixed-dimensional heterostructures via oxygen plasma treatments of two-dimensional (2D) materials. As a proof-of-concept, 1D/2D WO3-x /WSe2 heterostructures with good controllability and reproducibility are synthesized, in which 1D WO3-x nanowire patterns are laterally arranged along the three-fold symmetric directions of 2D WSe2. The WO3-x/WSe2 heterostructures exhibited high molecular sensitivity, with a limit of detection of 5 × 10−18 M and an enhancement factor of 5.0 × 1011 for methylene blue molecules, even in mixed solutions. We associate the ultrasensitive performance to the efficient charge transfer induced by the unique structures of 1D WO3-x nanowires and the effective interlayer coupling of the heterostructures. We observed a charge transfer timescale of around 1.0 picosecond via ultrafast transient spectroscopy. Our work provides an alternative strategy for the synthesis of 1D nanostructures from 2D materials and offers insights on the role of ultrafast charge transfer mechanisms in plasmon-free SERS-based molecular sensing.

Published

2023

4. Dual interfacial engineering of a Chevrel phase electrode material for stable hydrogen evolution at 2500 mA cm−2

Author

Heming Liu, Ruikuan Xie, Yuting Luo, Zhicheng Cui, Qiangmin Yu, Zhiqiang Gao, Zhiyuan Zhang, Fengning Yang, Xin Kang, Shiyu Ge, Shaohai Li, Xuefeng Gao, Guoliang Chai, Le Liu, and Bilu Liu

Subjects

Science

Abstract

Stable electrodes which operate at large current density are essential for industrial water electrolysis. Here, a highly active Chevrel phase electrode is reported to achieve 2500 mA/cm−2 current density for 300 hours at small overpotentials.

Published

2022

5. A 2D material–based transparent hydrogel with engineerable interference colours

Author

Baofu Ding, Pengyuan Zeng, Ziyang Huang, Lixin Dai, Tianshu Lan, Hao Xu, Yikun Pan, Yuting Luo, Qiangmin Yu, Hui-Ming Cheng, and Bilu Liu

Subjects

Science

Abstract

Though transparent hydrogels with tunable optical anisotropy are attractive for soft robotics, wearable devices and optical applications, achieving large birefringence has been a challenge. Here, the authors report a transparent hydrogel with large, uniform and magnetically tunable birefringence.

Published

2022

6. A Ta-TaS2 monolith catalyst with robust and metallic interface for superior hydrogen evolution

Author

Qiangmin Yu, Zhiyuan Zhang, Siyao Qiu, Yuting Luo, Zhibo Liu, Fengning Yang, Heming Liu, Shiyu Ge, Xiaolong Zou, Baofu Ding, Wencai Ren, Hui-Ming Cheng, Chenghua Sun, and Bilu Liu

Subjects

Science

Abstract

Water electrolysis is a promising hydrogen production technique but is restricted from large-scale application due to poor performance and high cost. Here, the authors report a mechanically stable monolith electrocatalyst that achieves superior hydrogen evolution at large current densities.

Published

2021

7. Anisotropic moiré optical transitions in twisted monolayer/bilayer phosphorene heterostructures

Author

Shilong Zhao, Erqing Wang, Ebru Alime Üzer, Shuaifei Guo, Ruishi Qi, Junyang Tan, Kenji Watanabe, Takashi Taniguchi, Tom Nilges, Peng Gao, Yuanbo Zhang, Hui-Ming Cheng, Bilu Liu, Xiaolong Zou, and Feng Wang

Subjects

Science

Abstract

Twisted phosphorene offers another attractive system to explore moiré physics. Here, the authors report emerging anisotropic moiré optical resonances in twisted monolayer/bilayer phosphorene, exhibiting strong twist dependence for angles as large as 19°.

Published

2021

8. High-throughput production of cheap mineral-based two-dimensional electrocatalysts for high-current-density hydrogen evolution

Author

Chi Zhang, Yuting Luo, Junyang Tan, Qiangmin Yu, Fengning Yang, Zhiyuan Zhang, Liusi Yang, Hui-Ming Cheng, and Bilu Liu

Subjects

Science

Abstract

The large-scale implementation of electrochemical technologies will require the high-throughput production of high-performance, inexpensive catalysts. Here, authors demonstrate earth abundant molybdenite as raw materials to produce efficient MoS2 catalysts for high current density H2 evolution.

Published

2020

9. Giant magneto-birefringence effect and tuneable colouration of 2D crystal suspensions

Author

Baofu Ding, Wenjun Kuang, Yikun Pan, I. V. Grigorieva, A. K. Geim, Bilu Liu, and Hui-Ming Cheng

Subjects

Science

Abstract

Materials with tunable transmitted colours are sought after for a range of applications. The authors here present magnetic-field-controlled color tuning in a transparent suspension of 2D crystals with unusually large magneto-birefringence.

Published

2020

10. Morphology and surface chemistry engineering toward pH-universal catalysts for hydrogen evolution at high current density

Author

Yuting Luo, Lei Tang, Usman Khan, Qiangmin Yu, Hui-Ming Cheng, Xiaolong Zou, and Bilu Liu

Subjects

Science

Abstract

Hydrogen production from water provides one avenue toward harnessing renewable energy, although large-scale implementation remains a challenge. Here, authors explore roles of morphology and surface chemistry, and develop efficient catalysts for hydrogen evolution at high current densities.

Published

2019