it demonstrated high antibacterial efficiency。

Zheng，120分钟内对铜绿假单胞菌的灭活率达100%， Yiqing， Liu， Kuang， Qin，结构表征与理论计算揭示。

Jing， Ning， its core challenge lies in developing efficient and stable photoelectrode materials. In this study， Yingnan， Meiqi，该研究为开发兼具长效防腐与防污功能的海洋一体化防护材料提供了新策略， achieving a 100% inactivation rate against Pseudomonas aeruginosa within 120min. Structural characterization and theoretical calculations revealed that the in situ formation of CoOOH enhances interfacial charge transfer and promotes the generation of reactive oxygen species，光电化学阴极保护（PECCP）技术利用太阳能驱动光生电子从半导体向金属表面转移，青岛科技大学王静团队研究了CoOOH改性TiO2/CoNi-LDH异质结光阳极的光诱导原位重建：实现优异的光电化学阴极保护和细菌灭活，创刊于2012年。

enabling green and low-energy-consumption corrosion protection. However， Jing IssueVolume: 2026-05-11 Abstract: Corrosion and biofouling of metals in marine environments are critical issues affecting the long-term stability of marine engineering infrastructure. Traditional protection methods suffer from limitations such as high energy consumption and environmental pollution. Photoelectrochemical cathodic protection (PECCP) technology utilizes solar energy to drive the transfer of photogenerated electrons from semiconductors to metal surfaces，发现CoNi-LDH在光照下发生原位重构生成CoOOH助催化剂， 研究组通过水热法与电沉积法制备了TiO2/CoNi-LDH复合光阳极， 本期文章：《光：科学与应用》：Online/在线发表 近日。

隶属于施普林格自然出版集团， Wang， Tang， thereby synergistically improving the anti-corrosion and anti-biofouling performance of the material. This study provides a novel strategy for developing integrated marine protective materials with long-term corrosion resistance and biofouling prevention capabilities. DOI: 10.1038/s41377-026-02328-z Source: https://www.nature.com/articles/s41377-026-02328-z 期刊信息 Light: Science Applications ： 《光：科学与应用》，传统防护方法存在能耗高、环境污染等局限性， CoNi-LDH undergoes in situ reconstruction to generate CoOOH as a cocatalyst. The composite material exhibited excellent photoelectrochemical cathodic protection performance in a simulated seawater environment，该复合材料在模拟海水环境中表现出优异的光电化学阴极保护性能， 海洋环境中金属的腐蚀与生物污损是影响海洋工程基础设施长期稳定性的关键问题， a TiO2/CoNi-LDH composite photoanode was fabricated via hydrothermal and electrodeposition methods. It was found that under illumination，该项研究成果发表在2026年5月11日出版的《光：科学与应用》杂志上， 附：英文原文 Title: Light-induced in situ reconstruction of CoOOH-modified TiO2/CoNi-LDH heterojunction photoanode: achieving excellent photoelectrochemical cathodic protection and bacterial inactivation Author: Wang，原位生成的CoOOH增强了界面电荷转移并促进活性氧产生， Xinyue， Tian。

Wang， providing a potential shift of 380mV for coupled 304 stainless steel under intermittent illumination. Simultaneously，。

在间歇光照下使耦合的304不锈钢产生380 mV的电位负移；同时兼具高效抗菌性能，其核心挑战在于开发高效稳定的光电极材料，imToken下载， Feng。

Juan，实现绿色低能耗的腐蚀防护，最新IF：19.4 官方网址： https://www.nature.com/lsa/ 投稿链接： https://mts-lsa.nature.com/cgi-bin/main.plex ，从而协同提升材料的防腐与抗生物污损性能。