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Fabrication of superhydrophilic surface on copper substrate by electrochemical deposition and sintering process
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作者 刘侨鹏 汤勇 +2 位作者 罗文杰 付婷 袁伟 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2015年第7期1200-1205,共6页
Superhydrophilic surfaces were fabricated on copper substrates by an electrochemical deposition and sintering process. Superhydrophobic surfaces were prepared by constructing micro/nano-structure on copper substrates ... Superhydrophilic surfaces were fabricated on copper substrates by an electrochemical deposition and sintering process. Superhydrophobic surfaces were prepared by constructing micro/nano-structure on copper substrates through an electrochemical deposition method. Conversion from superhydrophobic to superhydrophilic was obtained via a suitable sintering process. After reduction sintering, the contact angle of the superhydrophilic surfaces changed from 155° to 0°. The scanning electron microscope (SEM) images show that the morphology of superhydrophobic and superhydrophilic surfaces looks like corals and cells respectively. The chemical composition and crystal structure of these surfaces were examined using energy dispersive spectrometry (EDS) and X-ray diffraction (XRD). The results show that the main components on superhydrophobic surfaces are Cu, Cu2O and CuO, while the superhydrophilic surfaces are composed of Cu merely. The crystal structure is more inerratic and the grain size becomes bigger after the sintering. The interracial strength of the superhydrophilic surfaces was investigated, showing that the interfacial strength between superhydrophilic layer and copper substrate is considerably high. 展开更多
关键词 superhydrophilic Superhydrophobic Copper surface Electrochemical deposition Sintering process
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Hierarchically wood-derived integrated electrode with tunable superhydrophilic/superaerophobic surface for efficient urea electrolysis 被引量:1
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作者 Yu Liao Songlin Deng +3 位作者 Yan Qing Han Xu Cuihua Tian Yiqiang Wu 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2023年第1期566-575,I0014,共11页
Conferring surfaces with superhydrophilic/superaerophobic characteristics is desirable for synthesizing efficient gas reaction catalysts.However,complicated procedures,high costs,and poor interfaces hinder commerciali... Conferring surfaces with superhydrophilic/superaerophobic characteristics is desirable for synthesizing efficient gas reaction catalysts.However,complicated procedures,high costs,and poor interfaces hinder commercialization.Here,an integrated electrode with tunable wettability derived from a hierarchically porous wood scaffold was well designed for urea oxidation reaction(UOR).Interestingly,the outer surface of the wood lumen was optimized to the preferred wettability via stoichiometry to promote electrolyte permeation and gas escape.This catalyst exhibits outstanding activity and durability for UOR in alkaline media,requiring only a potential of 1.36 V(vs.RHE)to deliver 10 m A cm^(-2)and maintain its activity without significant decay for 60 h.These experiments and theoretical calculations demonstrate that the nickel(oxy)hydroxide layer formed through surface reconstruction of nickel nanoparticles improves the active sites and intrinsic activity.Moreover,the superwetting properties of the electrode promote mass transfer by guaranteeing substantial contact with the electrolyte and accelerating the separation of gaseous products during electrocatalysis.These findings provide the understanding needed to manipulate the surface wettability through rational design and fabrication of efficient electrocatalysts for gas-evolving processes. 展开更多
关键词 Integrated electrode Wood scaffold superhydrophilic/Superaerophobic surface Urea oxidation reaction
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Strategies for bubble removal in electrochemical systems 被引量:5
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作者 Yi He Yifan Cui +3 位作者 Zhongxi Zhao Yongtang Chen Wenxu Shang Peng Tan 《Energy Reviews》 2023年第1期49-60,共12页
Bubbles are known to affect energy and mass transfer in gas-evolving electrodes,including those in water splitting,chlorine generation,direct methanol fuel cells,and carbon dioxide generation.As bubbles vigorously evo... Bubbles are known to affect energy and mass transfer in gas-evolving electrodes,including those in water splitting,chlorine generation,direct methanol fuel cells,and carbon dioxide generation.As bubbles vigorously evolve in electrochemical reactions,undesired blockage of active sites and ion conducting pathways result in serious energy losses.Since new advances are made with the development of new theories,materials,and techniques,this review discusses the recent works on promoting bubble removal in electrochemical systems with the aim of guiding and motivating future research in this area.We first provide the mechanism of bubble evolution in electrochemical systems and the resultant overpotentials in detail.Then,recent advances in mitigating bubble issues are presented from the perspectives of passive and active strategies.Passive strategies act on the macro-and micro-structures of the electrode,surface wettability,and electrolyte properties.Active strategies employ out-fields,including flowing electrolytes,acoustic fields,magnetic forces,and photothermal effects,to guide bubbles out of reaction sites aiming at high reaction rates,whereas external energy is needed.Finally,the pros and cons of both strategies and future outlooks are presented.This review leads to design guidelines for highperformance gas-evolving electrochemical systems. 展开更多
关键词 Active strategy Bubble removal Electrochemical system Passive strategy superhydrophilic surface
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富含氧空位的NiFe氢氧化物衍生的具有超疏气纳米阵列形貌的磷化物及其全解水性能
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作者 王珂宇 梁晨 +9 位作者 李诗谊 李嘉煜 易致远 徐放 王一兴 雷林峰 朱明辉 李思瑶 庄林洲 徐至 《Science China Materials》 SCIE EI CAS CSCD 2023年第7期2662-2671,共10页
对高效催化剂进行多尺度调控可优化中间体的吸附能量(原子层面),并实现快速传质(三维宏观层面),这对于提升整体水分解性能至关重要.在本工作中,我们首先在镍铁氢氧化物中引入氧空位,然后通过磷化反应将其转化为具有纳米阵列形态的NiFe-V... 对高效催化剂进行多尺度调控可优化中间体的吸附能量(原子层面),并实现快速传质(三维宏观层面),这对于提升整体水分解性能至关重要.在本工作中,我们首先在镍铁氢氧化物中引入氧空位,然后通过磷化反应将其转化为具有纳米阵列形态的NiFe-Vo-P催化剂.在析氧反应催化过程中,NiFe-Vo-P表面会原位形成磷酸盐阴离子及具有催化活性的Ni(Fe)OOH,能显著优化反应中间体的吸附强度.结果表明,NiFeVo-P在过电位为289 mV时电流密度可达1.5 A cm^(-2).同时,其超亲水/超疏气纳米阵列形貌可有效促进传质,在25和70℃的条件下,可在~2.0V的电池电压下分别获得580 mA cm^(-2)和1.0 A cm^(-2)的电流密度,是未进行超疏气形貌工程催化剂的电流密度的2倍以上. 展开更多
关键词 oxygen vacancies kirkendall voids superhydrophilic/superaerophobic surface nickel(iron)oxyhydroxides water splitting
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