Copper-doped carbon dots integrate singlet oxygen catalysis with host immunity for plant oomycete control.

Opis bibliograficzny

Copper-doped carbon dots integrate singlet oxygen catalysis with host immunity for plant oomycete control. [AUT.] JIHAO MA, RUIXIN WU, SHENGMEI KANG, JING SUN, QIYUAN ZHANG, IZABELA JOŚKO, JUEWEN LIU, [AUT. KORESP.] XIAOREN CHEN, FENG WANG. CHEM ENG J 2026 Vol. 538 Articel number: 177026, il., bibliogr. sum. DOI: 10.1016/j.cej.2026.177026
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Szczegóły publikacji

Źródło:
Chemical Engineering Journal 2026 Vol. 538, Articel number: 177026
Rok:2026
Język:Angielski
Charakter formalny:Artykuł w czasopismie
Typ MNiSW/MEiN:praca oryginalna

Streszczenia

Oomycete phytopathogens such as Phytophthora capsici cause destructive crop diseases yet remain poorly addressed by current fungicides. Here, we present copper-doped carbon dots (Cu-CDs) as a multifunctional nanomaterial that couples catalytic singlet oxygen (1O2) generation with plant immune activation for effective oomycete control. Cu-CDs, synthesized by a one-step hydrothermal route from salicylic acid, urea, and copper chloride, exhibit an ultrasmall average diameter of 2.14 nm and strong 1O2 -generating activity. Cu-CDs displayed potent anti-oomycete activity against P. capsica, completely inhibiting mycelial growth at 200 μg mL−1 and disrupting multiple developmental stages of the pathogen. In planta, post-infection application of Cu-CDs reduced detached-leaf lesion area to 5.2% of the infected control and lowered whole-plant disease incidence to 16.6%. Beyond direct pathogen inhibition, Cu-CDs also activated host immunity, including a 211.3-fold induction of CaPR1, consistent with strong systemic acquired resistance. Importantly, these protective effects were achieved without detectable photosynthetic penalty. This work establishes Cu-CDs as a dual-action nano-oomycide that integrates catalytic pathogen eradication with host immunity priming, highlighting a nanotechnology-enabled strategy for sustainable crop protection.

Identyfikatory

BPP ID: (46, 53739) wydawnictwo ciągłe #53739

Metryki

200,00
Punkty MNiSW/MEiN
12,500
Impact Factor
Q1
WoS

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Rekord utworzony:2 lipca 2026 12:48
Ostatnia aktualizacja:2 lipca 2026 12:49