Controlled release of dinotefuran with temperature/pH-responsive chitosan-gelatin microspheres to reduce leaching risk during application

“…[34][35][36] Some nanocarriers have been applied for dinotefuran-controlled release, improving its utilization efficiency, decreasing leaching loss, and promoting ecological safety. [37][38][39] Our previous studies have focused on the enhanced bioactivity of SPc-delivered pesticides. However, the potential negative effects of the pesticide/SPc complex such as residue and safety toward natural enemies and plants should be evaluated before large-scale application.…”

A nanocarrier pesticide delivery system with promising benefits in the case of dinotefuran: strikingly enhanced bioactivity and reduced pesticide residue

“…[34][35][36] Some nanocarriers have been applied for dinotefuran-controlled release, improving its utilization efficiency, decreasing leaching loss, and promoting ecological safety. [37][38][39] Our previous studies have focused on the enhanced bioactivity of SPc-delivered pesticides. However, the potential negative effects of the pesticide/SPc complex such as residue and safety toward natural enemies and plants should be evaluated before large-scale application.…”

A nanocarrier pesticide delivery system with promising benefits in the case of dinotefuran: strikingly enhanced bioactivity and reduced pesticide residue

“…According to Taylor et al (2007), the increase of matrix concentration makes encapsulation efficiency values significantly increase. One of the most known matrix chitosanencapsulated essential oils could be utilized as an encapsulating matrix due to various characteristics such as ecological safety, low toxicity and excellent biodegradability (Prashanth and Tharanathan 2007;Zhang et al 2022). This study has been made in order to evaluate the efficacy of free and encapsulated rosemary essential oils as an ecofriendly alternative to chemical treatment like phosphine.…”

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“…Due to off-target behaviors such as evaporation, degradation, leaching, and runoff, agrochemicals with high water solubility and volatility may cause severe environmental damage. , Therefore, controlling the release rate of agrochemicals has been widely pursued. The controlled release of agrochemicals can be accomplished through various carriers, including organoclay, alginate, stimuli-responsive hydrogel, porous calcium carbonate microspheres, chitosan–gelatin microspheres, engineered nanometals, and covalent organic frameworks . Given the persistent challenges encountered in upscaling encapsulation technologies for agrochemicals, the utilization of cocrystallization has emerged as a dependable strategy for regulating the release profile of bioactive compounds within this field.…”

Pursuing Green and Efficient Agriculture from Molecular Assembly: A Review of Solid-State Forms on Agrochemicals