2021
DOI: 10.1021/acs.langmuir.1c02113
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Basic Amino Acid-Modified Lignin-Based Biomass Adjuvants: Synthesis, Emulsifying Activity, Ultraviolet Protection, and Controlled Release of Avermectin

Abstract: Avermectin (AVM) is a highly effective and safe biopesticide but is very sensitive to ultraviolet (UV) light and exhibits poor water solubility. Developing green and multifunctional adjuvants is important for the protection and controlled release of AVM. In this work, a number of water-soluble enzymatic hydrolysis lignins (W-EHLs) were prepared via grafting basic amino acids and used as emulsifiers with co-surfactants to prepare high-internal phase emulsions (HIPEs). The results showed that W-EHLs with co-surf… Show more

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Cited by 16 publications
(12 citation statements)
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“…Although unmodified lignin displays many attractive features, such as biodegradability, good thermal stability, antioxidant properties, and the ability to absorb UV-rays [17,18], applying chemical modification procedures allow for obtaining lignin-based materials with enhanced properties via utilization of various types of reactions, such as esterification [19], etherification [20,21], epoxidation [22], and amination [23], to name a few [24]. Other methods to obtain value-added chemicals employ depolymerization of lignin to simple molecules and then their use as building blocks in the synthesis of the new functional materials [25].…”
Section: Introductionmentioning
confidence: 99%
“…Although unmodified lignin displays many attractive features, such as biodegradability, good thermal stability, antioxidant properties, and the ability to absorb UV-rays [17,18], applying chemical modification procedures allow for obtaining lignin-based materials with enhanced properties via utilization of various types of reactions, such as esterification [19], etherification [20,21], epoxidation [22], and amination [23], to name a few [24]. Other methods to obtain value-added chemicals employ depolymerization of lignin to simple molecules and then their use as building blocks in the synthesis of the new functional materials [25].…”
Section: Introductionmentioning
confidence: 99%
“…68 The release of AIs in emulsion systems is closely related to the stability of the emulsion, which is regulated by the content and amphiphilicity of lignin particles. 59,60 Insufficient lignin at the oil-water interface hinders the formation of a stable emulsion, while an excessive content leads to aggregation and affects the emulsification performance. Lignin particles with excessive hydrophilicity or lipophilicity fail to stabilize well at the oil-water interface, requiring modification to achieve suitable amphiphilicity.…”
Section: Lignin-based Emulsionsmentioning
confidence: 99%
“…Generally, higher stability of the emulsion results in a slower release of AIs. 59,60 Lignin-based coacervates…”
Section: Lignin-based Emulsionsmentioning
confidence: 99%
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“…35 In addition, some adjuvants are light-sensitive, can degrade when exposed to UV light, and need storage in dark or light-protected containers to retain stability. 36 Adjuvants should be stored separately or in a way that minimizes contact with other vaccine components until they are ready to be used. Specific vaccination components and some adjuvants may interact, resulting in diminished efficacy or unfavorable reactions.…”
Section: Impact Of Storage Condition On Adjuvantmentioning
confidence: 99%