Meri Lundahl

941 total citations
16 papers, 798 citations indexed

About

Meri Lundahl is a scholar working on Biomaterials, Electronic, Optical and Magnetic Materials and Surfaces, Coatings and Films. According to data from OpenAlex, Meri Lundahl has authored 16 papers receiving a total of 798 indexed citations (citations by other indexed papers that have themselves been cited), including 13 papers in Biomaterials, 5 papers in Electronic, Optical and Magnetic Materials and 4 papers in Surfaces, Coatings and Films. Recurrent topics in Meri Lundahl's work include Advanced Cellulose Research Studies (13 papers), Electrospun Nanofibers in Biomedical Applications (6 papers) and Surface Modification and Superhydrophobicity (4 papers). Meri Lundahl is often cited by papers focused on Advanced Cellulose Research Studies (13 papers), Electrospun Nanofibers in Biomedical Applications (6 papers) and Surface Modification and Superhydrophobicity (4 papers). Meri Lundahl collaborates with scholars based in Finland, United States and Canada. Meri Lundahl's co-authors include Orlando J. Rojas, Mariko Ago, Anastassios C. Papageorgiou, Ville Klar, Ana Gisela Cunha, Maryam Borghei, Ling Wang, Julio C. Arboleda, Ester Rojo and Lauri Rautkari and has published in prestigious journals such as Applied Catalysis B: Environmental, Scientific Reports and ACS Applied Materials & Interfaces.

In The Last Decade

Meri Lundahl

16 papers receiving 786 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Meri Lundahl Finland 12 602 214 119 108 92 16 798
Xianpeng Yang China 8 321 0.5× 273 1.3× 112 0.9× 85 0.8× 51 0.6× 9 599
Dagang Li China 18 431 0.7× 322 1.5× 147 1.2× 77 0.7× 42 0.5× 31 848
Qiaoyun Cheng China 14 637 1.1× 383 1.8× 124 1.0× 104 1.0× 72 0.8× 18 1.0k
Hatika Kaco Malaysia 18 458 0.8× 307 1.4× 121 1.0× 65 0.6× 39 0.4× 43 855
Sun-Young Lee South Korea 16 846 1.4× 279 1.3× 213 1.8× 200 1.9× 115 1.3× 28 1.2k
Sang‐Jin Chun South Korea 11 489 0.8× 176 0.8× 243 2.0× 139 1.3× 102 1.1× 25 775
Shiva Singh India 15 376 0.6× 186 0.9× 146 1.2× 82 0.8× 56 0.6× 43 635
Caitlyn M. Clarkson United States 14 582 1.0× 237 1.1× 235 2.0× 74 0.7× 64 0.7× 27 947
Elina Niinivaara Finland 14 634 1.1× 265 1.2× 97 0.8× 61 0.6× 138 1.5× 21 791
Bengang Li China 14 278 0.5× 227 1.1× 116 1.0× 78 0.7× 18 0.2× 31 615

Countries citing papers authored by Meri Lundahl

Since Specialization
Citations

This map shows the geographic impact of Meri Lundahl's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Meri Lundahl with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Meri Lundahl more than expected).

Fields of papers citing papers by Meri Lundahl

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Meri Lundahl. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Meri Lundahl. The network helps show where Meri Lundahl may publish in the future.

Co-authorship network of co-authors of Meri Lundahl

This figure shows the co-authorship network connecting the top 25 collaborators of Meri Lundahl. A scholar is included among the top collaborators of Meri Lundahl based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Meri Lundahl. Meri Lundahl is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

16 of 16 papers shown
1.
Lundahl, Meri, et al.. (2023). Life cycle assessment of electrochemical and mechanical energy storage systems. Energy Reports. 10. 2036–2046. 5 indexed citations
2.
Lundahl, Meri, et al.. (2022). Effect of graphitic additives on the rheology of cellulose solutions for the preparation of templated carbon fiber precursors. Journal of Applied Polymer Science. 139(30). 3 indexed citations
3.
Reyes, Guillermo, Meri Lundahl, Serguei Alejandro-Martín, et al.. (2020). Coaxial Spinning of All-Cellulose Systems for Enhanced Toughness: Filaments of Oxidized Nanofibrils Sheathed in Cellulose II Regenerated from a Protic Ionic Liquid. Biomacromolecules. 21(2). 878–891. 31 indexed citations
4.
Wang, Ling, Maryam Borghei, Panu Lahtinen, et al.. (2020). Mesoporous Carbon Microfibers for Electroactive Materials Derived from Lignocellulose Nanofibrils. ACS Sustainable Chemistry & Engineering. 8(23). 8549–8561. 25 indexed citations
5.
Wang, Ling, Meri Lundahl, Luiz G. Greca, et al.. (2019). Effects of non-solvents and electrolytes on the formation and properties of cellulose I filaments. Scientific Reports. 9(1). 16691–16691. 45 indexed citations
6.
Wang, Ling, Mariko Ago, Maryam Borghei, et al.. (2019). Conductive Carbon Microfibers Derived from Wet-Spun Lignin/Nanocellulose Hydrogels. ACS Sustainable Chemistry & Engineering. 7(6). 6013–6022. 71 indexed citations
7.
Lundahl, Meri, Marco Berta, Mariko Ago, Mats Stading, & Orlando J. Rojas. (2018). Shear and extensional rheology of aqueous suspensions of cellulose nanofibrils for biopolymer-assisted filament spinning. European Polymer Journal. 109. 367–378. 51 indexed citations
8.
Cunha, Ana Gisela, et al.. (2018). Surface Structuring and Water Interactions of Nanocellulose Filaments Modified with Organosilanes toward Wearable Materials. ACS Applied Nano Materials. 1(9). 5279–5288. 32 indexed citations
9.
Lundahl, Meri, Ville Klar, Rubina Ajdary, et al.. (2018). Absorbent Filaments from Cellulose Nanofibril Hydrogels through Continuous Coaxial Wet Spinning. ACS Applied Materials & Interfaces. 10(32). 27287–27296. 57 indexed citations
10.
Lundahl, Meri, Ville Klar, Ling Wang, Mariko Ago, & Orlando J. Rojas. (2017). Correction for “Spinning of Cellulose Nanofibrils into Filaments: A Review”. Industrial & Engineering Chemistry Research. 56(14). 4205–4205. 1 indexed citations
11.
Vuoriluoto, Maija, Hannes Orelma, Meri Lundahl, Maryam Borghei, & Orlando J. Rojas. (2017). Filaments with Affinity Binding and Wet Strength Can Be Achieved by Spinning Bifunctional Cellulose Nanofibrils. Biomacromolecules. 18(6). 1803–1813. 32 indexed citations
12.
Lundahl, Meri, Ana Gisela Cunha, Ester Rojo, et al.. (2016). Strength and Water Interactions of Cellulose I Filaments Wet-Spun from Cellulose Nanofibril Hydrogels. Scientific Reports. 6(1). 30695–30695. 155 indexed citations
13.
Lundahl, Meri, Ville Klar, Ling Wang, Mariko Ago, & Orlando J. Rojas. (2016). Spinning of Cellulose Nanofibrils into Filaments: A Review. Industrial & Engineering Chemistry Research. 56(1). 8–19. 161 indexed citations
14.
Borghei, Maryam, Petri Kanninen, Meri Lundahl, et al.. (2014). High oxygen reduction activity of few-walled carbon nanotubes with low nitrogen content. Applied Catalysis B: Environmental. 158-159. 233–241. 62 indexed citations
15.
Borghei, Maryam, Petri Kanninen, Meri Lundahl, et al.. (2014). Highly active nitrogen-containing few-walled carbon nanotubes with very low nitrogen content for oxygen reduction reaction. 233–241. 1 indexed citations
16.
Lokanathan, Arcot R., Meri Lundahl, Orlando J. Rojas, & Janne Laine. (2014). Asymmetric cellulose nanocrystals: thiolation of reducing end groups via NHS–EDC coupling. Cellulose. 21(6). 4209–4218. 66 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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