NiTi-layered double hydroxide as an efficient photocatalytic fungicide of Aspergillus fumigatus spores: Capacity and mechanism

Hou, Fengming; Sheng, Zekai; Guo, Zhipeng; Zou, Leilei; Ai, Libang; Li, Jin; Zhang, Xiaoke; Wei, Wei; Wei, Anne

doi:10.1016/j.jssc.2022.123703

Cited by 4 publications

(2 citation statements)

References 45 publications

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“…2b). 37,38 The presence of oxygen vacancies in the as-obtained 2.0 wt% Pd/NiTi-LDH could be further confirmed from its ESR result from a peak with its g value centered at 2.003 (ESI Fig. S1†).…”

Section: Resultsmentioning

confidence: 74%

“…2b). 37,38 The presence of oxygen vacancies in the asobtained 2.0 wt% Pd/NiTi-LDH could be further confirmed from its ESR result from a peak with its g value centered at The XPS results clearly indicate that the presence of highvalent-state Pd δ+ in metallic Pd nanoparticles is due to a partial electron transfer from metallic Pd to cationic Ti via the bridging oxygen in the as-obtained 2.0 wt% Pd/NiTi-LDH. The formation of a similar Pd-O-Ti bond was also reported previously in a Pd/ZnTi-LDH nanocomposite.…”

Section: Dalton Transactions Papermentioning

confidence: 67%

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Efficient one-pot syntheses of secondary amines from nitro aromatics and benzyl alcohols over Pd/NiTi-LDH under visible light

Wang,

Jiang,

2023

Dalton Trans.

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Section: Resultsmentioning

confidence: 74%

Section: Dalton Transactions Papermentioning

confidence: 67%

Efficient one-pot syntheses of secondary amines from nitro aromatics and benzyl alcohols over Pd/NiTi-LDH under visible light

Wang,

Jiang,

2023

Dalton Trans.

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Durable Nano‐Flower Structured Foam Coupled with Electrically‐Driven in Situ Aeration Enable High‐Flux Oil/Water Emulsion Separation with Dynamic Antifouling Ability

Lu,

Chen,

Lin

et al. 2024

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The conventional membranes used for separating oil/water emulsions are typically limited by the properties of the membrane materials and the impact of membrane fouling, making continuous long‐term usage unachievable. In this study, a filtering electrode with synchronous self‐cleaning functionality is devised, exhibiting notable antifouling ability and an extended operational lifespan, suitable for the continuous separation of oil/water emulsions. Compared with the original Ti foam, the in situ growth of NiTi‐LDH (Layered double hydroxide) nano‐flowers endows the modified Ti foam (NiTi‐LDH/TF) with exceptional superhydrophilicity and underwater superoleophobicity. Driven by gravity, a rejection rate of over 99% is achieved for various emulsions containing oil content ranging from 1% to 50%, as well as oil/seawater emulsions. The flux recovery rate exceeds 90% after one hundred cycles and a 4‐h filtration period. The enhanced separation performance is realized through the “gas bridge” effect during in situ aeration and electrochemical anodic oxidation. The internal aeration within the membrane pores contributes to the removal of oil foulants. This study underscores the potential of coupling foam metal filtration materials with electrochemical technology, providing a paradigm for the exploration of novel oil/water separation membranes.

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Efficient hydrolytic dehydrogenation of ammonia borane catalyzed by ultrafine Pt clusters confined in Ni–Ti layered double hydroxides with closo-dodecaborate

Zhao,

Zhang,

Liao

et al. 2024

International Journal of Hydrogen Energy

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NiTi-layered double hydroxide as an efficient photocatalytic fungicide of Aspergillus fumigatus spores: Capacity and mechanism

Cited by 4 publications

References 45 publications

Efficient one-pot syntheses of secondary amines from nitro aromatics and benzyl alcohols over Pd/NiTi-LDH under visible light

Efficient one-pot syntheses of secondary amines from nitro aromatics and benzyl alcohols over Pd/NiTi-LDH under visible light

Durable Nano‐Flower Structured Foam Coupled with Electrically‐Driven in Situ Aeration Enable High‐Flux Oil/Water Emulsion Separation with Dynamic Antifouling Ability

Efficient hydrolytic dehydrogenation of ammonia borane catalyzed by ultrafine Pt clusters confined in Ni–Ti layered double hydroxides with closo-dodecaborate

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