Research Article
BibTex RIS Cite
Year 2020, Volume: 1 Issue: 2, 1 - 38, 31.12.2020

Abstract

References

  • Agarwall A, Agarwall R. The vulnerability and limitations of impact factor in evaluating quality. Journal of the Royal Society of Medicine, 2007, 100(8): 354-355.
  • Almeida JAS, Pais AACC. Science indicators and science patterns in Europe. Journal of Informetrics, 2009, 3(2), 134-142.
  • American Chemistry Council. http://www.americanchemistry.com/. Accessed 1st June 2016.
  • Bornmann L, Marx W, Gasparyan AY, Kitas GD. Diversity, value and limitations of the journal impact factor and alternative metrics. Rheumatology International, 2012, 32(7): 1861-1867.
  • Chang YW, Cheng TW. J. Characteristics and trends of research articles authored by researchers affiliated with institute of chemical engineering in Taiwan. Journal of the Taiwan Institute of Chemical Engineers 2012, 43: 331-338.
  • Chen H, Ho YS. Highly cited articles in biomass research: A bibliometric analysis. Renewable and Sustainable Energy Reviews, 2015, 49: 2-20.
  • Chuang KY, Ho YS. Bibliometric profile of top-cited single-author articles in the Science Citation Index Expanded. Journal of Informetrics, 2014, 8(4): 951-962.
  • Chuang KY, Wang MH, Ho YS. High-impact papers published in journals listed in the field of chemical Engineering. Malaysian Journal of Library & Information Science, 2013, 18(2): 47-63.
  • Chun YY. Bibliometric analysis of journal articles published by Southeast Asian chemical engineering researchers. Malaysian Journal of Library & Information Science, 2009, 14 (3): 1-13.
  • Clarke L, Plume A. Knowledge, networks and nations: global scientific collaboration in the 21st century, The Royal Society, London (UK), 2011. Available at: https://royalsociety.org/topics-policy/projects/knowledge-networks-nations/report/ (accessed 01.09.2015).
  • Fu HZ, Ho YS. Independent research of China in science citation index expanded during 1980–2011. Journal of Informetrics, 2013, 7(1): 210-222.
  • Fu HZ, Long Z, Ho YS. China’s research in chemical engineering journals in Science Citation Index Expanded: a bibliometric analysis. Scientometrics, 2014, 98(1): 119-136.
  • Fu HZ, Wang MH, Ho YS. Mapping of drinking water research: A bibliometric analysis of research output during 1992–2011. Science of the Total Environment, 2013, 443: 757-765.
  • García-Carpintero E, Miranda R. Analysis of the Spanish scientific production in Chemical Engineering area during the period 2000-2011. I FEIQ Workshop on Chemical Engineering. Ciudad Real (Spain), November 2013 [in Spanish].
  • Gazni A, Sugimoto CR, Didegah F. Mapping world scientific collaboration: Authors, institutions, and countries. Journal of the Association for Information Science and Technology, 2012, 63(2): 323-335.
  • Gillett, J.E. Chemical engineering education in the next century. Chemical Engineering & Technology, 2001, 24: 561–570.
  • Glänzel W, Schubert A. Double effort = double impact? A critical view at international co-authorship in chemistry. Scientometrics, 2001, 50(2): 199-214.
  • Glänzel W. Science in Scandinavia: A bibliometric approach. Scientometrics 2000, 48(2): 121-150.
  • Ho YS, Kahn M. A bibliometric study of highly cited reviews in the Science Citation Index Expanded™. Journal of the Association for Information Science and Technology, 2014, 65(2): 372-385.
  • Ho YS. Bibliometric analysis of biosorption technology in water treatment research from 1991 to 2004. International Journal of Environment and Pollution, 2008, 34(1-4): 1-13.
  • Ho YS. Top-cited Articles in Chemical Engineering in Science Citation Index Expanded: A Bibliometric Analysis. Chinese Journal of Chemical Engineering, 2012, 20 (3): 478-488.
  • International Council of Chemical Associations. http://www.icca-chem.org/. Accessed 1 June 2016.
  • King DA. The scientific impact of nations. Nature, 2004, 430(6997): 311-316.
  • Kostoff RN. Comparison of China/USA science and technology performance. Journal of Informetrics, 2008, 2(4): 354-363.
  • Lefaivre KA, Guy P, O’Brien PJ, Blachut PA, Shadgan B, Broekhuyse HM. 100 most cited articles in orthopaedic surgery. Clinical Orthopaedics and Related Research, 2011, 24: 53-58.
  • Leimu R, Koricheva, J. Does scientific collaboration increase the impact of ecological articles? AIBS Bulletin, 2005, 55(5): 438-443.
  • Leydesdorff L, Wagner CS, Bornmann L. The European Union, China, and the United States in the top-1% and top-10% layers of most-frequently cited publications: Competition and collaborations. Journal of Informetrics, 2014, 8: 606-617.
  • Leydesdorff L, Wagner CS. Is the United States losing ground in science? A global perspective on the world science system. Scientometrics, 2009, 78(1): 23-36.
  • Leydesdorff L. World shares of publications of the USA, EU-27, and China compared and predicated using the new interface of the Web of Science versus Scopus. El Profesional de la Información 2012, 21(2), 43-49.
  • Li LL, Deng G, Feng N, Wang MH, Ho YS. LI, Ling-Li, et al. Global stem cell research trend: Bibliometric analysis as a tool for mapping of trends from 1991 to 2006. Scientometrics 2009, 80(1): 39-58.
  • Ma J, Fu HZ, Ho YS. The top-cited wetland articles in Science Citation Index Expanded: characteristics and hotspots. Environmental Earth Sciences, 2013, 70(3): 1039-1046.
  • Miranda, R., Garcia-Carpintero, E. Bibliometric analysis of the world scientific production in Chemical Engineering during 2000-2011. Part 2: Analysis of the 1,000 most cited publications. Journal of Amasya University the Institute of Sciences and Technology, 2020b (in press).
  • Miranda, R., Garcia-Carpintero, E. Bibliometric analysis of the world scientific production in Chemical Engineering during 2000-2011. Part 3: Analysis of research trends and hot topics. Journal of Amasya University the Institute of Sciences and Technology, 2020c (in press).
  • Modak JM, Madras G. Scientometric analysis of chemical engineering publications. Current Science, 2008, 94(10): 1265-1272.
  • Narin F. Globalization of research, scholarly information, and patents–ten year trends. 6th Annual Conference Proceedings of the North American Serials Interest Group (NASIF), The Serials Librarian, vol. 21, 1991, pp. 2–3.
  • National Research Council, Panel on Benchmarking the Research Competitiveness of the U.S. in Chemical Engineering (2007). International Benchmarking of US Chemical Engineering Research Competitiveness. Washington (US): National Academy Press.
  • Persson O, Glänzel W, Danell R. Inflationary bibliometric values: The role of scientific collaboration and the need for relative indicators in evaluative studies. Scientometrics 2004, 60(3): 421-432.
  • Rojas-Sala JI, de San-Antonio-Gómez C. Bibliometric analysis of the Mexican scientific publications on the category Enginering, Chemical of Web of Science database (1997-2008). Revista Mexicana de Ingeniería Química, 2010a, 9(3): 231-240 [in Spanish].
  • Rojas-Sola JI, de San-Antonio-Gómez C. Bibliometric analysis of Uruguayan scientific publications in the Engineering, Chemical category of Web of Science (1997-2008). Ingeniería Química- Uruguay, 2010b, 38: 33-37 [in Spanish].
  • Russel J, Rousseau, R, in Encyclopedia of Life Support Systems, Part 19.3 Science and Technology Policy (Ed.: Arvantis), UNESCO/Eolss Publishers, Oxford (UK), 2002, pp. 1-20.
  • Schubert A. The profile of the Chemical Engineering Journal and Biochemical Engineering Journal as reflected in its publications, references and citations, 1983–1996. Chemical Engineering Journal, 1998, 69: 151-156.
  • Shelton RD, Foland P. The race for world leadership of science and technology: status and forecasts. 12th International Society for Scientometrics and Informetrics, Rio de Janeiro (Brazil), July 2009, 369-380.
  • Subramanyam K. Bibliometric studies of research collaboration: A review. Information Scientist, 1983, 6(1): 33-38.
  • Tan J, Fu HZ, Ho YS. A bibliometric analysis of research on proteomics in Science Citation Index Expanded. Scientometrics, 2014, 98(2): 1473-1490.
  • Tanaka H, Ho YS. Global trends and performances of desalination research. Desalination and Water Treatment, 2011, 25(1-3): 1-12.
  • Wagner CS, Bornmann L, Leydesdorff L. Recent Developments in China–US Cooperation in Science. Minerva, 2015, 53(3): 199-214.
  • Wagner CS, Leydesdorff L. Network structure, self-organization, and the growth of international collaboration in science. Research Policy, 2005, 34(10): 1608-1618.
  • Wen H, Huang Y. Trends and performance of oxidative stress research from 1991 to 2010. Scientometrics, 2011, 91(1): 51-63.
  • Xie S, Zhang J, Ho YS. Assessment of world aerosol research trends by bibliometric analysis. Scientometrics, 2008, 77(1): 113-130.
  • Yi H, Jie W. A bibliometric study of the trend in articles related to eutrophication published in Science Citation Index. Scientometrics, 2011, 89 (3): 919-927.
  • Yi H, Xi Z. Trends of DDT research during the period of 1991 to 2005. Scientometrics, 2008, 75(1): 111-122.
  • Yin, C.-Y. Bibliometric analysis of journal articles published by Southeast Asian chemical engineering researchers. Malaysian Journal of Library & Information Science, 2009, 14(3): 1-13.
  • Zhang G, Xie S, Ho YS. A bibliometric analysis of world volatile organic compounds research trends. Scientometrics, 2009, 83(2): 477-492.
  • Zhou P, Leydesdorff L. The emergence of China as a leading nation in science. Research Policy, 2006, 35(1): 83-104.
  • Zitt M, Bassecoulard E, Okubo Y. Shadows of the past in international cooperation: collaboration profiles of the top five producers of Science. Scientometrics, 2012, 47, 627-657.

BIBLIOMETRIC ANALYSIS OF THE WORLD SCIENTIFIC PRODUCTION IN CHEMICAL ENGINEERING DURING 2000-2011. PART 1: ANALYSIS OF TOTAL SCIENTIFIC PRODUCTION

Year 2020, Volume: 1 Issue: 2, 1 - 38, 31.12.2020

Abstract

A comprehensive bibliometric analysis of Chemical Engineering area has been carried out through the analysis of the scientific production covered in Web of Science during the period 2000-2011. Three complementary studies have been carried out. Part 1 analyzes total scientific production in the area. An important displacement of the scientific production to the Far East has occurred, mainly by the increase in publications from China (the world most productive country since 2008) but also from countries such as India and Iran. Although the share of publications from Europe, and especially from North America, have been decreased significantly, United States is still the country with the highest number of articles among the 1,000 most cited (31.5%), followed by Germany (8.4%) and China (7.5%). Switzerland, Italy, Netherlands, Singapore and Spain outstands as the countries with the highest number of cites per article and year and average impact factors of their publications. The international collaboration in the area is considerably high, especially within European countries (>40% publications are in international collaboration). The scientific production of the area is concentrated in a few journals (top 10 journals publishing around 30% publications and top 25 journals, around 50%) and publishers (Elsevier, Wiley-Blackwell, Taylor & Francis and the American Chemical Society). The countries with the highest number of institutions among the top 100 most productive are China and United States (12 each), followed by France (9), Japan (7) and United Kingdom (7). The top five institutions were from France, China, India, United States and Russia.

References

  • Agarwall A, Agarwall R. The vulnerability and limitations of impact factor in evaluating quality. Journal of the Royal Society of Medicine, 2007, 100(8): 354-355.
  • Almeida JAS, Pais AACC. Science indicators and science patterns in Europe. Journal of Informetrics, 2009, 3(2), 134-142.
  • American Chemistry Council. http://www.americanchemistry.com/. Accessed 1st June 2016.
  • Bornmann L, Marx W, Gasparyan AY, Kitas GD. Diversity, value and limitations of the journal impact factor and alternative metrics. Rheumatology International, 2012, 32(7): 1861-1867.
  • Chang YW, Cheng TW. J. Characteristics and trends of research articles authored by researchers affiliated with institute of chemical engineering in Taiwan. Journal of the Taiwan Institute of Chemical Engineers 2012, 43: 331-338.
  • Chen H, Ho YS. Highly cited articles in biomass research: A bibliometric analysis. Renewable and Sustainable Energy Reviews, 2015, 49: 2-20.
  • Chuang KY, Ho YS. Bibliometric profile of top-cited single-author articles in the Science Citation Index Expanded. Journal of Informetrics, 2014, 8(4): 951-962.
  • Chuang KY, Wang MH, Ho YS. High-impact papers published in journals listed in the field of chemical Engineering. Malaysian Journal of Library & Information Science, 2013, 18(2): 47-63.
  • Chun YY. Bibliometric analysis of journal articles published by Southeast Asian chemical engineering researchers. Malaysian Journal of Library & Information Science, 2009, 14 (3): 1-13.
  • Clarke L, Plume A. Knowledge, networks and nations: global scientific collaboration in the 21st century, The Royal Society, London (UK), 2011. Available at: https://royalsociety.org/topics-policy/projects/knowledge-networks-nations/report/ (accessed 01.09.2015).
  • Fu HZ, Ho YS. Independent research of China in science citation index expanded during 1980–2011. Journal of Informetrics, 2013, 7(1): 210-222.
  • Fu HZ, Long Z, Ho YS. China’s research in chemical engineering journals in Science Citation Index Expanded: a bibliometric analysis. Scientometrics, 2014, 98(1): 119-136.
  • Fu HZ, Wang MH, Ho YS. Mapping of drinking water research: A bibliometric analysis of research output during 1992–2011. Science of the Total Environment, 2013, 443: 757-765.
  • García-Carpintero E, Miranda R. Analysis of the Spanish scientific production in Chemical Engineering area during the period 2000-2011. I FEIQ Workshop on Chemical Engineering. Ciudad Real (Spain), November 2013 [in Spanish].
  • Gazni A, Sugimoto CR, Didegah F. Mapping world scientific collaboration: Authors, institutions, and countries. Journal of the Association for Information Science and Technology, 2012, 63(2): 323-335.
  • Gillett, J.E. Chemical engineering education in the next century. Chemical Engineering & Technology, 2001, 24: 561–570.
  • Glänzel W, Schubert A. Double effort = double impact? A critical view at international co-authorship in chemistry. Scientometrics, 2001, 50(2): 199-214.
  • Glänzel W. Science in Scandinavia: A bibliometric approach. Scientometrics 2000, 48(2): 121-150.
  • Ho YS, Kahn M. A bibliometric study of highly cited reviews in the Science Citation Index Expanded™. Journal of the Association for Information Science and Technology, 2014, 65(2): 372-385.
  • Ho YS. Bibliometric analysis of biosorption technology in water treatment research from 1991 to 2004. International Journal of Environment and Pollution, 2008, 34(1-4): 1-13.
  • Ho YS. Top-cited Articles in Chemical Engineering in Science Citation Index Expanded: A Bibliometric Analysis. Chinese Journal of Chemical Engineering, 2012, 20 (3): 478-488.
  • International Council of Chemical Associations. http://www.icca-chem.org/. Accessed 1 June 2016.
  • King DA. The scientific impact of nations. Nature, 2004, 430(6997): 311-316.
  • Kostoff RN. Comparison of China/USA science and technology performance. Journal of Informetrics, 2008, 2(4): 354-363.
  • Lefaivre KA, Guy P, O’Brien PJ, Blachut PA, Shadgan B, Broekhuyse HM. 100 most cited articles in orthopaedic surgery. Clinical Orthopaedics and Related Research, 2011, 24: 53-58.
  • Leimu R, Koricheva, J. Does scientific collaboration increase the impact of ecological articles? AIBS Bulletin, 2005, 55(5): 438-443.
  • Leydesdorff L, Wagner CS, Bornmann L. The European Union, China, and the United States in the top-1% and top-10% layers of most-frequently cited publications: Competition and collaborations. Journal of Informetrics, 2014, 8: 606-617.
  • Leydesdorff L, Wagner CS. Is the United States losing ground in science? A global perspective on the world science system. Scientometrics, 2009, 78(1): 23-36.
  • Leydesdorff L. World shares of publications of the USA, EU-27, and China compared and predicated using the new interface of the Web of Science versus Scopus. El Profesional de la Información 2012, 21(2), 43-49.
  • Li LL, Deng G, Feng N, Wang MH, Ho YS. LI, Ling-Li, et al. Global stem cell research trend: Bibliometric analysis as a tool for mapping of trends from 1991 to 2006. Scientometrics 2009, 80(1): 39-58.
  • Ma J, Fu HZ, Ho YS. The top-cited wetland articles in Science Citation Index Expanded: characteristics and hotspots. Environmental Earth Sciences, 2013, 70(3): 1039-1046.
  • Miranda, R., Garcia-Carpintero, E. Bibliometric analysis of the world scientific production in Chemical Engineering during 2000-2011. Part 2: Analysis of the 1,000 most cited publications. Journal of Amasya University the Institute of Sciences and Technology, 2020b (in press).
  • Miranda, R., Garcia-Carpintero, E. Bibliometric analysis of the world scientific production in Chemical Engineering during 2000-2011. Part 3: Analysis of research trends and hot topics. Journal of Amasya University the Institute of Sciences and Technology, 2020c (in press).
  • Modak JM, Madras G. Scientometric analysis of chemical engineering publications. Current Science, 2008, 94(10): 1265-1272.
  • Narin F. Globalization of research, scholarly information, and patents–ten year trends. 6th Annual Conference Proceedings of the North American Serials Interest Group (NASIF), The Serials Librarian, vol. 21, 1991, pp. 2–3.
  • National Research Council, Panel on Benchmarking the Research Competitiveness of the U.S. in Chemical Engineering (2007). International Benchmarking of US Chemical Engineering Research Competitiveness. Washington (US): National Academy Press.
  • Persson O, Glänzel W, Danell R. Inflationary bibliometric values: The role of scientific collaboration and the need for relative indicators in evaluative studies. Scientometrics 2004, 60(3): 421-432.
  • Rojas-Sala JI, de San-Antonio-Gómez C. Bibliometric analysis of the Mexican scientific publications on the category Enginering, Chemical of Web of Science database (1997-2008). Revista Mexicana de Ingeniería Química, 2010a, 9(3): 231-240 [in Spanish].
  • Rojas-Sola JI, de San-Antonio-Gómez C. Bibliometric analysis of Uruguayan scientific publications in the Engineering, Chemical category of Web of Science (1997-2008). Ingeniería Química- Uruguay, 2010b, 38: 33-37 [in Spanish].
  • Russel J, Rousseau, R, in Encyclopedia of Life Support Systems, Part 19.3 Science and Technology Policy (Ed.: Arvantis), UNESCO/Eolss Publishers, Oxford (UK), 2002, pp. 1-20.
  • Schubert A. The profile of the Chemical Engineering Journal and Biochemical Engineering Journal as reflected in its publications, references and citations, 1983–1996. Chemical Engineering Journal, 1998, 69: 151-156.
  • Shelton RD, Foland P. The race for world leadership of science and technology: status and forecasts. 12th International Society for Scientometrics and Informetrics, Rio de Janeiro (Brazil), July 2009, 369-380.
  • Subramanyam K. Bibliometric studies of research collaboration: A review. Information Scientist, 1983, 6(1): 33-38.
  • Tan J, Fu HZ, Ho YS. A bibliometric analysis of research on proteomics in Science Citation Index Expanded. Scientometrics, 2014, 98(2): 1473-1490.
  • Tanaka H, Ho YS. Global trends and performances of desalination research. Desalination and Water Treatment, 2011, 25(1-3): 1-12.
  • Wagner CS, Bornmann L, Leydesdorff L. Recent Developments in China–US Cooperation in Science. Minerva, 2015, 53(3): 199-214.
  • Wagner CS, Leydesdorff L. Network structure, self-organization, and the growth of international collaboration in science. Research Policy, 2005, 34(10): 1608-1618.
  • Wen H, Huang Y. Trends and performance of oxidative stress research from 1991 to 2010. Scientometrics, 2011, 91(1): 51-63.
  • Xie S, Zhang J, Ho YS. Assessment of world aerosol research trends by bibliometric analysis. Scientometrics, 2008, 77(1): 113-130.
  • Yi H, Jie W. A bibliometric study of the trend in articles related to eutrophication published in Science Citation Index. Scientometrics, 2011, 89 (3): 919-927.
  • Yi H, Xi Z. Trends of DDT research during the period of 1991 to 2005. Scientometrics, 2008, 75(1): 111-122.
  • Yin, C.-Y. Bibliometric analysis of journal articles published by Southeast Asian chemical engineering researchers. Malaysian Journal of Library & Information Science, 2009, 14(3): 1-13.
  • Zhang G, Xie S, Ho YS. A bibliometric analysis of world volatile organic compounds research trends. Scientometrics, 2009, 83(2): 477-492.
  • Zhou P, Leydesdorff L. The emergence of China as a leading nation in science. Research Policy, 2006, 35(1): 83-104.
  • Zitt M, Bassecoulard E, Okubo Y. Shadows of the past in international cooperation: collaboration profiles of the top five producers of Science. Scientometrics, 2012, 47, 627-657.
There are 55 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research & Review Articles
Authors

Ruben Miranda

Esther García-carpintero This is me 0000-0002-7804-1449

Publication Date December 31, 2020
Published in Issue Year 2020 Volume: 1 Issue: 2

Cite

APA Miranda, R., & García-carpintero, E. (2020). BIBLIOMETRIC ANALYSIS OF THE WORLD SCIENTIFIC PRODUCTION IN CHEMICAL ENGINEERING DURING 2000-2011. PART 1: ANALYSIS OF TOTAL SCIENTIFIC PRODUCTION. Journal of Amasya University the Institute of Sciences and Technology, 1(2), 1-38.
AMA Miranda R, García-carpintero E. BIBLIOMETRIC ANALYSIS OF THE WORLD SCIENTIFIC PRODUCTION IN CHEMICAL ENGINEERING DURING 2000-2011. PART 1: ANALYSIS OF TOTAL SCIENTIFIC PRODUCTION. J. Amasya Univ. Inst. Sci. Technol. December 2020;1(2):1-38.
Chicago Miranda, Ruben, and Esther García-carpintero. “BIBLIOMETRIC ANALYSIS OF THE WORLD SCIENTIFIC PRODUCTION IN CHEMICAL ENGINEERING DURING 2000-2011. PART 1: ANALYSIS OF TOTAL SCIENTIFIC PRODUCTION”. Journal of Amasya University the Institute of Sciences and Technology 1, no. 2 (December 2020): 1-38.
EndNote Miranda R, García-carpintero E (December 1, 2020) BIBLIOMETRIC ANALYSIS OF THE WORLD SCIENTIFIC PRODUCTION IN CHEMICAL ENGINEERING DURING 2000-2011. PART 1: ANALYSIS OF TOTAL SCIENTIFIC PRODUCTION. Journal of Amasya University the Institute of Sciences and Technology 1 2 1–38.
IEEE R. Miranda and E. García-carpintero, “BIBLIOMETRIC ANALYSIS OF THE WORLD SCIENTIFIC PRODUCTION IN CHEMICAL ENGINEERING DURING 2000-2011. PART 1: ANALYSIS OF TOTAL SCIENTIFIC PRODUCTION”, J. Amasya Univ. Inst. Sci. Technol., vol. 1, no. 2, pp. 1–38, 2020.
ISNAD Miranda, Ruben - García-carpintero, Esther. “BIBLIOMETRIC ANALYSIS OF THE WORLD SCIENTIFIC PRODUCTION IN CHEMICAL ENGINEERING DURING 2000-2011. PART 1: ANALYSIS OF TOTAL SCIENTIFIC PRODUCTION”. Journal of Amasya University the Institute of Sciences and Technology 1/2 (December 2020), 1-38.
JAMA Miranda R, García-carpintero E. BIBLIOMETRIC ANALYSIS OF THE WORLD SCIENTIFIC PRODUCTION IN CHEMICAL ENGINEERING DURING 2000-2011. PART 1: ANALYSIS OF TOTAL SCIENTIFIC PRODUCTION. J. Amasya Univ. Inst. Sci. Technol. 2020;1:1–38.
MLA Miranda, Ruben and Esther García-carpintero. “BIBLIOMETRIC ANALYSIS OF THE WORLD SCIENTIFIC PRODUCTION IN CHEMICAL ENGINEERING DURING 2000-2011. PART 1: ANALYSIS OF TOTAL SCIENTIFIC PRODUCTION”. Journal of Amasya University the Institute of Sciences and Technology, vol. 1, no. 2, 2020, pp. 1-38.
Vancouver Miranda R, García-carpintero E. BIBLIOMETRIC ANALYSIS OF THE WORLD SCIENTIFIC PRODUCTION IN CHEMICAL ENGINEERING DURING 2000-2011. PART 1: ANALYSIS OF TOTAL SCIENTIFIC PRODUCTION. J. Amasya Univ. Inst. Sci. Technol. 2020;1(2):1-38.



Scilit 30442                               

Academindex 30443

SOBIAD 30444


29442 As of 2023, JAUIST is licensed under a Creative Commons Attribution-NonCommercial 4.0 International Licence (CC BY-NC).