Lignin Nanoparticles-Based Antibacterial Coatings for Development of Antimicrobial Surfaces

Maria Morits; Roberta Teixeira Polez; Satu Salo; Petri Widsten; Kristoffer Meinander; Donika Morina; Stina Grönqvist; Monika Österberg

Lignin Nanoparticles-Based Antibacterial Coatings for Development of Antimicrobial Surfaces

Maria Morits, Roberta Teixeira Polez, Satu Salo, Petri Widsten, Kristoffer Meinander, Donika Morina, Stina Grönqvist, Monika Österberg^*

^*Tämän työn vastaava kirjoittaja

VTT Technical Research Centre of Finland Ltd.

Tutkimustuotos: Artikkeli kirjassa/konferenssijulkaisussa › Conference contribution › Scientific

Abstrakti

Antibiotic resistance development in bacteria is a serious threat to human health all over the world. One of the common ways of transmission of bacteria is contact with contaminated surfaces. Antimicrobial surfaces are promising solution for containment of spread of infection. Use of bio-based and biodegradable materials for antimicrobial coatings of disposable products are of great interest due to their lower environmental impact in comparison with synthetic compounds.
In this study filter paper samples were uniformly coated with different amounts of softwood Kraft lignin nanoparticles (ca 1-5 g/m2) using spraying or immersion methods. Presence of the particles on the samples’ surfaces were confirmed by Scanning Electron microscopy (SEM). Surface density of the particles on the surface were determined by weighing and by X-ray Photoelectron Spectroscopy (XPS). The Minimum Inhibitory Concentration (MIC) of LNPs dispersions for MRSA was 0.16 wt.-% in 24h contact time. The LNPs’ coatings demonstrated antimicrobial properties against MRSA which makes LNPs promising bio-based antimicrobial agent for development of antimicrobial surfaces.

Alkuperäiskieli	Englanti
Otsikko	NWBC 2022
Alaotsikko	The 10th Nordic Wood Biorefinery Conference
Toimittajat	Atte Virtanen, Katariina Torvinen, Jessica Vepsäläinen
Kustantaja	VTT Technical Research Centre of Finland
Sivut	183-187
ISBN (elektroninen)	978-951-38-8772-8
Tila	Julkaistu - 2022
OKM-julkaisutyyppi	B3 Vertaisarvioimaton artikkeli konferenssijulkaisussa
Tapahtuma	Nordic Wood Biorefinery Conference - Scandic Park Helsinki, Helsinki, Suomi Kesto: 25 lokak. 2022 → 27 lokak. 2022 Konferenssinumero: 10

Julkaisusarja

Nimi	VTT Technology
Numero	409
ISSN (painettu)	2242-1211

Conference

Conference	Nordic Wood Biorefinery Conference
Lyhennettä	NWBC
Maa/Alue	Suomi
Kaupunki	Helsinki
Ajanjakso	25/10/2022 → 27/10/2022

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https://publications.vtt.fi/pdf/technology/2022/T409.pdf

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Morits, M., Teixeira Polez, R., Salo, S., Widsten, P., Meinander, K., Morina, D., Grönqvist, S., & Österberg, M. (2022). Lignin Nanoparticles-Based Antibacterial Coatings for Development of Antimicrobial Surfaces. teoksessa A. Virtanen, K. Torvinen, & J. Vepsäläinen (Toimittajat), NWBC 2022: The 10th Nordic Wood Biorefinery Conference (Sivut 183-187). (VTT Technology; Nro 409). VTT Technical Research Centre of Finland. https://publications.vtt.fi/pdf/technology/2022/T409.pdf

@inproceedings{1f8d81fb0b924181bb11390b851125ff,

title = "Lignin Nanoparticles-Based Antibacterial Coatings for Development of Antimicrobial Surfaces",

abstract = "Antibiotic resistance development in bacteria is a serious threat to human health all over the world. One of the common ways of transmission of bacteria is contact with contaminated surfaces. Antimicrobial surfaces are promising solution for containment of spread of infection. Use of bio-based and biodegradable materials for antimicrobial coatings of disposable products are of great interest due to their lower environmental impact in comparison with synthetic compounds.In this study filter paper samples were uniformly coated with different amounts of softwood Kraft lignin nanoparticles (ca 1-5 g/m2) using spraying or immersion methods. Presence of the particles on the samples{\textquoteright} surfaces were confirmed by Scanning Electron microscopy (SEM). Surface density of the particles on the surface were determined by weighing and by X-ray Photoelectron Spectroscopy (XPS). The Minimum Inhibitory Concentration (MIC) of LNPs dispersions for MRSA was 0.16 wt.-% in 24h contact time. The LNPs{\textquoteright} coatings demonstrated antimicrobial properties against MRSA which makes LNPs promising bio-based antimicrobial agent for development of antimicrobial surfaces.",

author = "Maria Morits and {Teixeira Polez}, Roberta and Satu Salo and Petri Widsten and Kristoffer Meinander and Donika Morina and Stina Gr{\"o}nqvist and Monika {\"O}sterberg",

year = "2022",

language = "English",

series = "VTT Technology",

publisher = "VTT Technical Research Centre of Finland",

number = "409",

pages = "183--187",

editor = "Atte Virtanen and Katariina Torvinen and Jessica Veps{\"a}l{\"a}inen",

booktitle = "NWBC 2022",

address = "Finland",

note = "Nordic Wood Biorefinery Conference, NWBC ; Conference date: 25-10-2022 Through 27-10-2022",

}

Morits, M , Teixeira Polez, R, Salo, S, Widsten, P, Meinander, K, Morina, D, Grönqvist, S & Österberg, M 2022, Lignin Nanoparticles-Based Antibacterial Coatings for Development of Antimicrobial Surfaces. julkaisussa A Virtanen, K Torvinen & J Vepsäläinen (toim), NWBC 2022: The 10th Nordic Wood Biorefinery Conference. VTT Technology, Nro 409, VTT Technical Research Centre of Finland, Sivut 183-187, Nordic Wood Biorefinery Conference, Helsinki, Suomi, 25/10/2022. <https://publications.vtt.fi/pdf/technology/2022/T409.pdf>

Lignin Nanoparticles-Based Antibacterial Coatings for Development of Antimicrobial Surfaces. / Morits, Maria ; Teixeira Polez, Roberta; Salo, Satu et al.
NWBC 2022: The 10th Nordic Wood Biorefinery Conference. toim. / Atte Virtanen; Katariina Torvinen; Jessica Vepsäläinen. VTT Technical Research Centre of Finland, 2022. s. 183-187 (VTT Technology; Nro 409).

Tutkimustuotos: Artikkeli kirjassa/konferenssijulkaisussa › Conference contribution › Scientific

TY - GEN

T1 - Lignin Nanoparticles-Based Antibacterial Coatings for Development of Antimicrobial Surfaces

AU - Morits, Maria

AU - Teixeira Polez, Roberta

AU - Salo, Satu

AU - Widsten, Petri

AU - Meinander, Kristoffer

AU - Morina, Donika

AU - Grönqvist, Stina

AU - Österberg, Monika

N1 - Conference code: 10

PY - 2022

Y1 - 2022

N2 - Antibiotic resistance development in bacteria is a serious threat to human health all over the world. One of the common ways of transmission of bacteria is contact with contaminated surfaces. Antimicrobial surfaces are promising solution for containment of spread of infection. Use of bio-based and biodegradable materials for antimicrobial coatings of disposable products are of great interest due to their lower environmental impact in comparison with synthetic compounds.In this study filter paper samples were uniformly coated with different amounts of softwood Kraft lignin nanoparticles (ca 1-5 g/m2) using spraying or immersion methods. Presence of the particles on the samples’ surfaces were confirmed by Scanning Electron microscopy (SEM). Surface density of the particles on the surface were determined by weighing and by X-ray Photoelectron Spectroscopy (XPS). The Minimum Inhibitory Concentration (MIC) of LNPs dispersions for MRSA was 0.16 wt.-% in 24h contact time. The LNPs’ coatings demonstrated antimicrobial properties against MRSA which makes LNPs promising bio-based antimicrobial agent for development of antimicrobial surfaces.

AB - Antibiotic resistance development in bacteria is a serious threat to human health all over the world. One of the common ways of transmission of bacteria is contact with contaminated surfaces. Antimicrobial surfaces are promising solution for containment of spread of infection. Use of bio-based and biodegradable materials for antimicrobial coatings of disposable products are of great interest due to their lower environmental impact in comparison with synthetic compounds.In this study filter paper samples were uniformly coated with different amounts of softwood Kraft lignin nanoparticles (ca 1-5 g/m2) using spraying or immersion methods. Presence of the particles on the samples’ surfaces were confirmed by Scanning Electron microscopy (SEM). Surface density of the particles on the surface were determined by weighing and by X-ray Photoelectron Spectroscopy (XPS). The Minimum Inhibitory Concentration (MIC) of LNPs dispersions for MRSA was 0.16 wt.-% in 24h contact time. The LNPs’ coatings demonstrated antimicrobial properties against MRSA which makes LNPs promising bio-based antimicrobial agent for development of antimicrobial surfaces.

M3 - Conference contribution

T3 - VTT Technology

SP - 183

EP - 187

BT - NWBC 2022

A2 - Virtanen, Atte

A2 - Torvinen, Katariina

A2 - Vepsäläinen, Jessica

PB - VTT Technical Research Centre of Finland

T2 - Nordic Wood Biorefinery Conference

Y2 - 25 October 2022 through 27 October 2022

ER -

Morits M , Teixeira Polez R, Salo S, Widsten P, Meinander K, Morina D et al. Lignin Nanoparticles-Based Antibacterial Coatings for Development of Antimicrobial Surfaces. julkaisussa Virtanen A, Torvinen K, Vepsäläinen J, toimittajat, NWBC 2022: The 10th Nordic Wood Biorefinery Conference. VTT Technical Research Centre of Finland. 2022. s. 183-187. (VTT Technology; 409).

Lignin Nanoparticles-Based Antibacterial Coatings for Development of Antimicrobial Surfaces

Abstrakti

Julkaisusarja

Conference

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