BASF

Last updated January 31, 2026

319

Innovation Areas

13,244

Inventors

154

Collaborations

Substituted trifluoromethyloxadiazole derivatives: BASFRecent Research Landscape

Fungal pathogens rapidly evolve resistance and degrade crop yields, necessitating the engineering of specific molecular scaffolds to maintain bioactivity. These innovations utilize substituted benzodiazepine structures to provide targeted fungicidal control and improved seed coating stability.

What technical problems is BASF addressing in Substituted trifluoromethyloxadiazole derivatives?

Inadequate crop protection spectrum

(17)evidences

Existing treatments suffer from reduced efficacy due to evolving fungal pathogens. Overcoming this resistance ensures sustained crop protection and yield stability.

Phytopathogenic fungal resistance

(14)evidences

Existing fungicides face declining efficacy due to pathogen adaptation and resistance development. Overcoming these biological defenses is necessary to prevent crop loss and maintain agricultural productivity.

Phytopathogenic fungal crop destruction

(11)evidences

Existing agrochemical treatments suffer from reduced efficacy due to evolving fungal resistance. Overcoming this limitation ensures crop protection and prevents yield loss.

Fungicide resistance in phytopathogens

(7)evidences

Mutations such as F129L in mitochondrial cytochrome b render standard Qo inhibitors ineffective. Overcoming this resistance ensures crop protection efficacy against evolved fungal strains.

Pathogenic fungal resistance

(3)evidences

Fungal infections cause significant yield loss and degradation of plant propagation materials. Preventing this biological degradation ensures agricultural productivity and seed viability.