Trends Of Deep Eutectic Solvent for Silver Nanoparticle Recovery Based on Bibliometric Computational Analysis Using Vosviewer

Hufaidatul Azfa Nurusyifa Ramdaniah, Asep Bayu Dani Nandiyanto


The recovery of metallic silver (Ag) using Deep Eutectic Solvent (DESs) is one of the hot topics for research. This metal recovery aims to synthesize silver metal from e-waste, Radiographic Films or else into pure silver metal so that it can have reuse value. The topic of this research is becoming a trend and increasing from year to year when viewed from bibliometric data and has a very broad scope. The search data showed that there were 534 data articles that met the research criteria in the last 10 years from 2013 to 2022. The results show that research in DESs for recovery of silver nanoparticles can be separated into 3 terms, namely DESs, silver and nanoparticles. The term "DESs for recovery of silver nanoparticles" resulted in 102 related items from 534 articles which were obtained and separated into 8 different clusters that were matched to the identification of the research topic raised. Overall, the research trend for this topic is increasing from year to year as shown in 2020 which only had 76 published articles to 157 articles in 2021 and 188 articles in 2022. The data were taken from the application reference manager and then connected to the VOSViewer. This review can be a starting point for further related research.

Kata Kunci

Silver Nanoparticles recovery;DESs, Bibliometric; Computational mapping analysis; VOSviewer Sertakan.

Teks Lengkap:

PDF (English)


Liu, J., Li, X., & Row, K. H. (2022). Development of deep eutectic solvents for sustainable chemistry. Journal of Molecular Liquids, 362, 119654.

Arshadi, M., & Mousavi, S. M. (2014). Simultaneous recovery of Ni and Cu from computer-printed circuit boards using bioleaching: Statistical evaluation and optimization. Bioresource Technology, 174, 233–242.

Cui, H., Anderson, C. G. (2016). Literature Review of Hydrometallurgical Recycling of Printed Circuit Boards (PCBs). Journal of Advanced Chemical Engineering, 6(1).

Kaliyaraj, D., Rajendran, M., Angamuthu, V., Antony, A. R., Kaari, M., Thangavel, S., Venugopal, G., Joseph, J., & Manikkam, R. (2019). Bioleaching of heavy metals from printed circuit board (PCB) by Streptomyces albidoflavus TN10 isolated from insect nest. Bioresources and Bioprocessing, 6(1), 47.

Modak, N. M., Lobos, V., Merigó, J. M., Gabrys, B., & Lee, J. H. (2020). Forty years of computers & chemical engineering: A bibliometric analysis. Computers & Chemical Engineering, 141, 106978.

Hamidah, I., Sriyono, S., & Hudha, M. N. (2020). A Bibliometric Analysis of Covid-19 Research using VOSviewer. Indonesian Journal of Science and Technology, 5(2), 209–216.

Ho, Y.-S. (2012). Top-cited Articles in Chemical Engineering in Science Citation Index Expanded: A Bibliometric Analysis. Chinese Journal of Chemical Engineering, 20(3), 478–488.

Nandiyanto, A. B. D., & Al Husaeni, D. F. (2021). A bibliometric analysis of materials research in Indonesian journal using VOSviewer. Journal of Engineering Research.

Mulyawati, I. B., & Ramadhan, D. F. (2021). Bibliometric and Visualized Analysis of Scientific Publications on Geotechnics Fields. ASEAN Journal of Science and Engineering Education, 1(1), 37–46.

Nandiyanto, A. B. D., Biddinika, M. K., & Triawan, F. (2020). How bibliographic dataset portrays decreasing number of scientific publication from Indonesia. Indonesian Journal of Science and Technology, 5(1), 154–175.

Fleming, C. L., Golzan, M., Gunawan, C., & McGrath, K. C. (2022). Systematic and Bibliometric Analysis of Magnetite Nanoparticles and Their Applications in (Biomedical) Research. Global Challenges, 2200009.

Shidiq, A.P. (2023). A bibliometric analysis of nano metal-organic frameworks synthesis research in medical science using VOSviewer. ASEAN Journal of Science and Engineering, 3(1), 31-38.

Al Husaeni, D.F.; and Nandiyanto, A.B.D. (2022). Bibliometric using Vosviewer with Publish or Perish (using google scholar data): From step-by-step processing for users to the practical examples in the analysis of digital learning articles in pre and post Covid-19 pandemic. ASEAN Journal of Science and Engineering, 2(1), 19-46.

Sudagar, J., Lian, J., & Sha, W. (2013). Electroless nickel, alloy, composite and nano coatings – A critical review. Journal of Alloys and Compounds, 571, 183–204.

Singh, S. K., & Savoy, A. W. (2020). Ionic liquids synthesis and applications: An overview. Journal of Molecular Liquids, 297, 112038.

Abo-Hamad, A., Hayyan, M., AlSaadi, M. A., & Hashim, M. A. (2015). Potential applications of deep eutectic solvents in nanotechnology. Chemical Engineering Journal, 273, 551–567.

Alonso, D. A., Baeza, A., Chinchilla, R., Guillena, G., Pastor, I. M., & Ramón, D. J. (2016). Deep Eutectic Solvents: The Organic Reaction Medium of the Century. European Journal of Organic Chemistry, 2016(4), 612–632.

Vikrant, K., & Kim, K.-H. (2019). Nanomaterials for the adsorptive treatment of Hg(II) ions from water. Chemical Engineering Journal, 358, 264–282.

Thines, R. K., Mubarak, N. M., Nizamuddin, S., Sahu, J. N., Abdullah, E. C., & Ganesan, P. (2017). Application potential of carbon nanomaterials in water and wastewater treatment: A review. Journal of the Taiwan Institute of Chemical Engineers, 72, 116–133.

Egorova, K. S., & Ananikov, V. P. (2018). Fundamental importance of ionic interactions in the liquid phase: A review of recent studies of ionic liquids in biomedical and pharmaceutical applications. Journal of Molecular Liquids, 272, 271–300.

Wazeer, I., Hayyan, M., & Hadj-Kali, M. K. (2018). Deep eutectic solvents: designer fluids for chemical processes. Journal of Chemical Technology & Biotechnology, 93(4), 945–958.

AlOmar, M. K., Alsaadi, M. A., Jassam, T. M., Akib, S., & Ali Hashim, M. (2017). Novel deep eutectic solvent-functionalized carbon nanotubes adsorbent for mercury removal from water. Journal of Colloid and Interface Science, 497, 413–421.

Periyasamy, M., & Kar, A. (2020). Modulating the properties of SnO 2 nanocrystals: morphological effects on structural, photoluminescence, photocatalytic, electrochemical and gas sensing properties. Journal of Materials Chemistry C, 8(14), 4604–4635.

Altunay, N., Elik, A., & Gürkan, R. (2019). Monitoring of some trace metals in honeys by flame atomic absorption spectrometry after ultrasound assisted-dispersive liquid liquid microextraction using natural deep eutectic solvent. Microchemical Journal, 147, 49–59.

Tomé, L. C., & Mecerreyes, D. (2020). Emerging Ionic Soft Materials Based on Deep Eutectic Solvents. The Journal of Physical Chemistry B, 124(39), 8465–8478.

Ibrahim, R. K., El-Shafie, A., Hin, L. S., Mohd, N. S. B., Aljumaily, M. M., Ibraim, S., & AlSaadi, M. A. (2019). A clean approach for functionalized carbon nanotubes by deep eutectic solvents and their performance in the adsorption of methyl orange from aqueous solution. Journal of Environmental Management, 235, 521–534.

Abdel-Mohsen, A. M., Pavliňák, D., Čileková, M., Lepcio, P., Abdel-Rahman, R. M., & Jančář, J. (2019). Electrospinning of hyaluronan/polyvinyl alcohol in presence of in-situ silver nanoparticles: Preparation and characterization. International Journal of Biological Macromolecules, 139, 730–739.

Elakkiya, V. T., SureshKumar, P., Alharbi, N. S., Kadaikunnan, S., Khaled, J. M., & Govindarajan, M. (2020). Swift production of rhamnolipid biosurfactant, biopolymer and synthesis of biosurfactant-wrapped silver nanoparticles and its enhanced oil recovery. Saudi Journal of Biological Sciences, 27(7), 1892–1899.

Wang, J., Zhang, Y., Yu, L., Cui, K., Fu, T., & Mao, H. (2022). Effective separation and recovery of valuable metals from waste Ni-based batteries: A comprehensive review. Chemical Engineering Journal, 439, 135767.

Bryant, S. J., Christofferson, A. J., Greaves, T. L.,

McConville, C. F., Bryant, G., & Elbourne, A. (2022). Bulk and interfacial nanostructure and properties in deep eutectic solvents: Current perspectives and future directions. Journal of Colloid and Interface Science, 608, 2430–2454.



  • Saat ini tidak ada refbacks.