NH4F-induced morphology-dependent NiSe2/CoSe electrocatalysts on Ni foam for enhanced overall water splitting [0.03%]
NH4F诱导的泡沫镍上形貌依赖性NiSe2/CoSe电催化剂用于提升全解水性能
Xinpei Zhao,Zhihui Shang,Na Li et al.
Xinpei Zhao et al.
Morphological control is a highly effective strategy to enhance the intrinsic activity for overall water splitting. However, designing and synthesizing persistent morphological changes still present significant challenges. In this study, a ...
Synergistic hybridization between third-period and fifth-period transition metal orbitals in entropy-stabilized layered double hydroxides for long-term oxygen evolution catalysis [0.03%]
第三周期和第五周期过渡金属轨道的协同杂化在熵稳定层状双氢氧化物中的作用以实现长期的氧气进化催化反应
Shengnan Na,Xugen Shi,Dong-Feng Chai et al.
Shengnan Na et al.
The development of high-entropy electrocatalysts with optimized activity-stability balance represents a critical advancement in overcoming the efficiency limitations of oxygen evolution reaction (OER) for sustainable hydrogen production. He...
Cascade reaction hydrogel with enzyme-catalyzed endogenous glucose for diabetic wound healing [0.03%]
基于内源性葡萄糖酶促催化级联反应的智能水凝胶用于糖尿病伤口修复
Ning Wei,Liangyu Wang,Haibo Wang et al.
Ning Wei et al.
The complex microenvironment of diabetic wounds, combined with the emergence of antibiotic-resistant bacteria under biofilms, makes it challenging for antibiotics or single treatment strategies to effectively treat infected wounds. To susta...
Electric field derived from NiCo2S4-MoS2n-n heterojunction promoted electrocatalytic methanol oxidation assisted energy-saving hydrogen production [0.03%]
基于NiCo₂S₄-MoS₂异质结电场促进的甲醇氧化助力节能产氢催化剂研究
Fangshuo Jia,Yujuan Zhang,Xiaolong Ma et al.
Fangshuo Jia et al.
Water electrolysis coupling methanol oxidation is an energy-efficient hydrogen generation technology, while obtaining high-value formic acid, however, superior catalysts are often required to achieve efficient hydrogen production. Herein, t...
Morphology dependence of zeolitic imidazolate framework-67 nanoreactor for carbon dioxide reduction and hexavalent chromium immobilisation [0.03%]
介孔咪唑
Yonggong Tang,Fan Wu,Weinan Xing et al.
Yonggong Tang et al.
Energy conversion and pollutant remediation are essential means of environmental protection. Zeolitic imidazolate framework-67 (ZIF-67) is an ideal catalyst for these processes. In this study, four morphologies of ZIF-67 were synthesised fo...
Synergistic vanadium carbide/oxide heterostructures within layered carbon for enhanced lithium-sulfur battery performance [0.03%]
分层碳中的协同钒碳化物/氧化物异质结构增强锂硫电池性能
Dong Mao,Yifan Fu,Junjie Ba et al.
Dong Mao et al.
Lithium-sulfur (Li-S) batteries hold great promise due to their high theoretical energy density, but their practical application is impeded by the insulating nature of sulfur and the shuttle effect of soluble lithium polysulfides. Herein, w...
Lan Liang,Rui Wang,Yongsheng Xu et al.
Lan Liang et al.
The perception of catalytic site contributions in peroxymonosulfate (PMS)/biochar systems is biased due to the neglect of active site interactions. Here, random forest regression (RF), supporting vector regression (SVR), XGBoost (XGB), and ...
Synergistic optimization of charge carrier separation and transfer in ZnO through crystal facet engineering and piezoelectric effect [0.03%]
基于晶面工程和压电效应的ZnO载流子分离和转移协同优化
Xudong Zhang,Haoyu Wang,Qingyu Shi et al.
Xudong Zhang et al.
Rational regulation of photogenerated charge carrier separation and transfer is a key strategy for optimizing photocatalytic activity. Leveraging the synergistic effects of crystal facet engineering and the piezoelectric effect, a series of...
Resilient ultrafine fiber sponges with thermal bridge structures for high-temperature traffic noise reduction [0.03%]
具有热桥结构的耐高温超细纤维海绵吸声材料
Yanzhe Li,Dingding Zong,Yaning Sun et al.
Yanzhe Li et al.
With the expansion of the transportation business, noise pollution has seriously affected human health and quality of life. Vehicles not only generate noise but also release a large amount of heat, existing traffic noise reduction materials...
Layered dual-metal nodes metal organic frameworks artificial nanozymes boost the production of reactive oxygen species for antibacterial of drug-resistant bacteria [0.03%]
分层双金属节点金属有机框架人工纳米酶促进抗菌药物生成活性氧杀菌剂
Qinqin Li,Fangyong Liu,Shihan Zhang et al.
Qinqin Li et al.
The overuse of antibiotics result drug resistance in bacterial pathogens, imposing significant healthcare challenges and socioeconomic costs. Developing artificial nanozymes is one of the promising candidates for the substitution of antibio...