Enhancing protein trapping efficiency of graphene oxide-polybutylene succinate nanofiber membrane via molecular imprinting

Sathirapongsasuti, Nuankanya; Panaksri, Anuchan; Jusain, Benjabhorn; Boonyagul, Sani; Pechprasarn, Suejit; Jantanasakulwong, Kittisak; Suksuwan, Acharee; Thongkham, Somprasong; Tanadchangsaeng, Nuttapol

doi:10.1038/s41598-023-42646-5

Sci Rep

2023

DOI: 10.1038/s41598-023-42646-5

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Enhancing protein trapping efficiency of graphene oxide-polybutylene succinate nanofiber membrane via molecular imprinting

Nuankanya Sathirapongsasuti,

Anuchan Panaksri,

Benjabhorn Jusain

et al.

Abstract: Filtration of biological liquids has been widely employed in biological, medical, and environmental investigations due to its convenience; many could be performed without energy and on-site, particularly protein separation. However, most available membranes are universal protein absorption or sub-fractionation due to molecule sizes or properties. SPMA, or syringe-push membrane absorption, is a quick and easy way to prepare biofluids for protein evaluation. The idea of initiating SPMA was to filter proteins fro… Show more

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Cited by 4 publications

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Innovative separation of melittin from bee venom using micro-free-flow electrophoresis: An experimental and theoretical study

Kordzadeh,

Ramazani Sa,

Mashayekhan

2025

Analytica Chimica Acta

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Innovative separation of melittin from bee venom using micro-free-flow electrophoresis: An experimental and theoretical study

Kordzadeh,

Ramazani Sa,

Mashayekhan

2025

Analytica Chimica Acta

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Molecular separation applications of next-generation graphene oxide composite membranes with enhanced properties: Current status and future prospects

Li,

Lv,

Tang

et al. 2025

Separation and Purification Technology

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Electrochromic Covalent Organic Framework-Assembled Nanofibrous Membranes with Mimetic Chameleon Skin Architectures for Visible and Near-Infrared Camouflage Stealth

Wang,

et al. 2024

Nano Lett.

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The developments of modern surveillance technology pose great challenges to combat concealment for warfighters. Traditional camouflage suits cannot accommodate the need for camouflage stealth in complex warfare scenarios. Herein, a bidirectional diffusion-controlled in situ synthesis methodology is reported to achieve electrochromic nanofibrous membranes with mimetic chameleon skin structures (CSENs) by assembling electrochromic covalent organic frameworks on nanofibers. CSENs exhibit reversible color changes in the visible and nearinfrared ranges under an applied potential with fast response times (25.8 s/26.2 s). The macro-and mesoporous structures in CSENs favored the transportation of electrolyte ions, achieving excellent color difference and coloration efficiency of 35.58 and 1053.26 cm 2 /C, respectively. Importantly, CSENs feature unique properties of self-standing, breathability, and flexibility, which are attributed to the micrometer pores constructed by entangled nanofibers. As a proof-of-concept study, the CSEN-based flexible electrochromic suit exhibits a dynamic camouflage function in real environments, showing promising properties as smart textiles for dynamic camouflage stealth.

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Enhancing protein trapping efficiency of graphene oxide-polybutylene succinate nanofiber membrane via molecular imprinting

Cited by 4 publications

References 39 publications

Innovative separation of melittin from bee venom using micro-free-flow electrophoresis: An experimental and theoretical study

Innovative separation of melittin from bee venom using micro-free-flow electrophoresis: An experimental and theoretical study

Molecular separation applications of next-generation graphene oxide composite membranes with enhanced properties: Current status and future prospects

Electrochromic Covalent Organic Framework-Assembled Nanofibrous Membranes with Mimetic Chameleon Skin Architectures for Visible and Near-Infrared Camouflage Stealth

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