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xiahui energy storage
Hui XIA | Professor (Full) | PhD | Nanjing University of Science and
My research focuses on developing new materials and architectures for electrochemical energy storage systems, including all-solid-state microbatteries, rechargeable metal ion batteries
Journal of Energy Storage
Transition metal hydroxides (TMHs) are extensively used energy storage as REDOX active electrode materials, which have excellent characteristics such as low price, environmental friendly, low toxicity, and easy regulation of structure composition. The conductivity of nickel-based hydroxides is very low, ranging from 10 to 13 to 10–17 S·cm
Xiahui Zhang
: Central South University · : Washington State University · : · 103 。 ( 10 ) Xiahui Zhang。
International Journal of Hydrogen Energy
To assist the development of materials-based hydrogen storage, the U.S. Department of Energy (DOE) has set an objective for hydrogen storage materials to 5.5 wt% [5]. On the other hand, the adsorption energy of hydrogen molecules is a critical parameter for the design and manufacture of efficient hydrogen storage materials.
Xiaohui Ning-CAMP NANO
Large-scale energy storage have attracted more and more attentions due to the increasing deployment of renewable energy sources such as solar and wind power. However, current well-developed battery technology can’t meet the durability, high power and energy efficiency, and cost requirements for widespread application in the grid.
Na-ion batteries: From fundamental research to engineering
Ruohui Rao Long Chen Jing Su Shiteng Cai Sheng Wang Zhongxue Chen. Engineering, Environmental Science. Battery Energy. 2023. Aqueous sodium‐ion batteries (ASIBs) have attracted widespread attention in the energy storage and conversion fields due to their benefits in high safety, low cost, and environmental friendliness.. Expand. 1.
Recent progress and perspectives on aqueous Zn-based
Moreover, since the electrochemical performance of AZIBs and AZHBs is tightly related to the Zn anode, electrolyte, and cathode materials, this review has a special focus on the design of highly reversible Zn anodes, optimization of the electrolyte, and the structure, energy storage mechanisms, and modification of cathode materials.
Cryogenic Energy Storage — University of Birmingham
Cryogenic Energy Storage (CES) refers to a technology that stores energy in a material at a temperature significantly lower than the ambient temperature. The storage material can be a solid (e.g., rocks) or a liquid (e.g., salt solutions, nitrogen, and air). This chapter specifically deals with the CES that stores energy in a cryogenic fluid
BaTiO3–BiYbO3 perovskite materials for energy storage
Novel perovskite-type (1 − x)BaTiO3–xBiYbO3 solid solutions with x = 0.00–0.20 were synthesized using conventional solid-state reaction methods. A systematic structural change from ferroelectric tetragonal to pseudo-cubic phase was observed at about x = 0.050–0.051 at room temperature. Dielectric measurement
Multifunctional BaTiO3‐(Bi0.5Na0.5)TiO3‐based MLCC with high‐energy storage properties and temperature stability
In terms of energy storage performance, a large discharge energy density of 3.33 J/cm 3 can be obtained at 175 C under the applied electric field of 480 kV/cm. Among all tested temperature ranging from −50°C to 200°C, the energy efficiency of all chips is higher than 80%, even under a high applied electric field.
Effect of nitric oxide on sugar metabolism in peach fruit (cv. Xiahui 6
The influence of exogenous nitric oxide (NO) on the sucrose metabolism of peach fruit (cv. Xiahui 6) under cold storage was investigated. Peach fruit were treated with 10 μL L −1 of NO at 25 ± 1 °C for 3 h and then placed at 4 °C for twenty four days. The results showed that the ethylene production of the fruit treated with NO was inhibited
A low-cost intermediate temperature Fe/Graphite battery for grid-scale energy storage
The constant pursuit of alternative energy sources stimulates the rapid exploitation of energy storage systems. Compared to alkali metal-ion batteries, aqueous transition-metal ion batteries have captured increasing attention because of their high safety, eco-friendliness, abundant resources, and low cost.
Enhanced cycling performance of rechargeable Li–O2
Li–O 2 batteries have received much attention for next-generation energy storage devices due to their high specific energy. However, Li–O 2 batteries still face several challenges including low energy efficiency and poor cycle life, which are mainly caused by the low stability of electrolytes and cathodes towards aggressive reduced
Xiahui YAO | Boston College, Boston | BC | Chemistry Department
Xiahui YAO | Cited by 1,481 | of Boston College, Boston (BC) | Read 18 publications | Contact Xiahui YAO As a promising high-capacity energy storage technology Li-O2 batteries face two
A low-cost intermediate temperature Fe/Graphite battery for
Section snippets Electrolyte synthesis. The NaCl saturated NaAlCl 4 electrolyte was prepared by mixing and heating anhydrous NaCl (99.99%, Aladdin) and anhydrous AlCl 3 (99%, Aladdin) together at 200 °C. To ensure that the solution is saturated with NaCl, the molar ratio of NaCl and AlCl 3 was adjusted to a value slightly greater than
Enhanced cycling performance of rechargeable Li–O2
Lithium–oxygen (Li–O 2) batteries have received much attention as next-generation energy storage devices due to their potential to store remarkably higher
Journal of Energy Storage | Vol 73, Part D, 20 December 2023
An experimental investigation on thermal energy storage characteristics of nanocomposite particles dispersed phase change material for solar photovoltaic module cooling. Prabhu B, Valan Arasu A, Sandro Nižetić, Müslüm Arıcı. Article 109221.
Batteries, Fuel Cells and Electrochemical Systems
Tao Dai, Lie Yang, Xiaohui Ning, Danli Zhang, R. Lakshmi Narayan, Ju Li and Zhiwei Shan, Energy Energy Storage Materials 25 (2020) 801-810. High-performance sodium-ion batteries with a hard carbon anode:
Enhanced relaxation and energy storage performance in
The unique antiferroelectric behavior of AgNbO 3 ceramics has great potential for energy storage applications, which have attracted increasing attention. However, the relatively low recoverable energy storage density, energy efficiency and breakdown strength of AgNbO 3 ceramics severely limit their application in practice. In
Recent progress and perspectives on aqueous Zn-based
The research on clean energy has been intensified over past decades, but the intermittent nature of these renewable resources requires an effective medium to store and transfer energy. Among the various energy storage technologies, rechargeable batteries have been regarded as among the most feasible and reliable devices, and they
Engineers Design Ion-Based Device That Operates Like an Energy
The first author of the paper is Xiahui Yao, a former MIT postdoc now working on energy storage at GRU Energy Lab. Neural networks attempt to simulate the way learning takes place in the brain, which is based on the gradual strengthening or weakening of the connections between neurons, known as synapses. The core
Accelerated design of electrodes for liquid metal battery by
Large-scale energy storage systems contribute to relieving the intermittent properties of renewable energy (such as solar and wind) and increasing the efficiency and reliability of electric grid [1]. Xiaohui Ning. Self-healing action of Bi in high-performance Sb–Bi–Sn positive electrodes for liquid metal batteries. Journal of Power
Xiaohui Liu''s research works | Tongji University, Shanghai and
Xiaohui Liu''s 10 research works with 328 citations and 648 reads, including: Antiferroelectric nano-heterostructures filler for improving energy storage performance of PVDF-based composite films
Multifunctional BaTiO3‐(Bi0.5Na0.5)TiO3‐based MLCC
Xiaohui Wang, State Key Laboratory of New Ceramics and Fine Processing, School of Materials Science and Engineering, Tsinghua University, Beijing, China. In terms of energy storage
"Flexible integration of liquid air energy storage with liquefied
Liquid Air Energy Storage (LAES) is one of the most promising energy storage technologies for achieving low carbon emissions. Our research shows that the LAES produces a considerable amount of excess heat that cannot be cost-effectively utilised in a standalone LAES system. On the other hand, the regasification of liquefied natural gas
Ultrahigh energy storage and ultrafast ion diffusion in
Since the turn of the new century, the increasing demand for high-performance energy storage systems has generated considerable interest in rechargeable ion batteries (IBs). However, current IB technologies are
Cryogenic Energy Storage
Overview of Energy Storage Technologies Léonard Wagner, in Future Energy (Second Edition), 201427.4.6.1 Cryogenic Energy Storage Cryogenic energy storage is a variant of the compressed air energy storage and uses low-temperature (cryogenic) liquids such as liquid air or liquid nitrogen as energy storage.
2020
Jinhyuk Lee, Daiwei Yu, Zhi Zhu, Xiahui Yao, Chao Wang, Yanhao Dong, Rahul Malik and Ju Li, ACS Applied Energy Materials 3 (2020) 7931–7943. Giant Photonic Response of Mexican-Hat Topological Semiconductors for Mid-infrared to Terahertz Applications, Haowei Xu, Jian Zhou, Hua Wang and Ju Li, Journal of Physical Chemistry Letters 11 (2020
Operando formation of multi-channel positive electrode achieved
1. Introduction. The development of renewable energy generation is vitally important to reduce CO 2 emissions and achieve a carbon neutrality era. However, due to the intermittency and instability of solar and wind, energy storage technologies are essential for their integration into the grid [1].Among different kinds of energy storage
Thermo-Economic Multi-Objective Optimization of the Liquid Air Energy
Liquid Air Energy Storage (LAES) is a promising energy storage technology for large-scale application in future energy systems with a higher renewable penetrati. Liang, Ting and She, Xiaohui and Li, Yongliang and Zhang, Tongtong and Ding, Yulong, Thermo-Economic Multi-Objective Optimization of the Liquid Air Energy
Hybrid electrode materials for energy storage
power, in conjunction with energy storage systems, such as rechargeable batteries and supercapacitors, are one of the key solutions to release the heavy burden on the current
High-directional thermally conductive stearic acid/expanded
Phase change materials (PCMs) have garnered significant attention as a prospective solution for photothermal energy storage, attributed to their notable energy
Boosting Energy Storage via Confining Soluble Redox Species
Abstract. An upswell in the demand for both high energy density and large power density has triggered extensive research in developing next-generation energy
Recent progress and perspectives on aqueous Zn-based
Most ion storage materials in aqueous alkali metal ion batteries can be applied as host materials in aqueous zinc-ion batteries (AZIBs), although the energy storage chemistries for AZIBs are more complicated than in the former systems. So far, the reaction mechanisms of Zn-ion storage are still in dispute and underdeveloped.
Design and performance evaluation of an innovative salt hydrates
Thermochemical energy storage (TCES) with salt hydrates has attracted much attention due to its high energy storage density, low regeneration temperature, and long-term storage without energy loss. As a key component of the TCES system, the reactor has a major influence on the system performance. Xiaohui She.
Flexible Electrochemical Energy Storage Devices and Related
4 · However, existing types of flexible energy storage devices encounter challenges in effectively integrating mechanical and electrochemical perpormances. This review is
Xiaohui ZENG | PhD Student | PhD | University of Wollongong,
Rechargeable aqueous Zn/MnO2 batteries are very attractive large‐scale energy storage technologies, but still suffer from limited cycle life and low capacity. Here the novel adoption of a near
Journal of Energy Storage | ScienceDirect by Elsevier
The Journal of Energy Storage focusses on all aspects of energy storage, in particular systems integration, electric grid integration, modelling and analysis, novel energy storage technologies, sizing and management strategies, business models for operation of storage systems and energy storage . View full aims & scope.
Advanced sodium-ion batteries using superior low cost pyrolyzed
Hard carbon has received much attention as a promising anode material for energy storage systems because of its low cost, abundant source and high capacity. Based on the investigations regarding Na + storage, the charge-discharge curve of hard carbon can be usually divided into two parts: the slope region at high voltage (>0.1 V vs.
Ion modified cobalt-based layered double hydroxides and
Among them, cobalt based layered double hydroxides (LDH), as a promising anode material for pseudocapacitance, has a wide range of applications in electrochemical energy storage. However, the disadvantages of LDH such as the high resistance and the easy structure collapse in the process of charging and discharging
