The Science of Science

Dashun Wang; Albert-László Barabási

doi:10.1017/9781108610834

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Palchykov, V. Krasnytska, M. Mryglod, O. and Holovatch, Yu. 2021. A mechanism for evolution of the physical concepts network. Condensed Matter Physics, Vol. 24, Issue. 2, p. 24001.

CrossRef

Google Scholar

PALCHYKOV, VASYL KRASNYTSKA, MARIANA MRYGLOD, OLESYA and HOLOVATCH, YURIJ 2021. NETWORK OF SCIENTIFIC CONCEPTS: EMPIRICAL ANALYSIS AND MODELING. Advances in Complex Systems, Vol. 24, Issue. 03n04,

CrossRef

Google Scholar

Färber, Michael and Lamprecht, David 2021. The data set knowledge graph: Creating a linked open data source for data sets. Quantitative Science Studies, Vol. 2, Issue. 4, p. 1324.

CrossRef

Google Scholar

Tran, Ngoc Mai and Xie, Yangxinyu 2021. Improving random walk rankings with feature selection and imputation Science4cast competition, team Hash Brown. p. 5824.

CrossRef

Google Scholar

Monasterio Astobiza, Aníbal 2021. Science, misinformation and digital technology during the Covid-19 pandemic. History and Philosophy of the Life Sciences, Vol. 43, Issue. 2,

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Google Scholar

Harman, Keith 2021. Editorial: Corporate governance and regulation: The literature review as a research methodology and research method. Journal of Governance and Regulation, Vol. 10, Issue. 4, special issue, p. 190.

CrossRef

Google Scholar

Heiberger, Raphael H. Munoz-Najar Galvez, Sebastian and McFarland, Daniel A. 2021. Facets of Specialization and Its Relation to Career Success: An Analysis of U.S. Sociology, 1980 to 2015. American Sociological Review, Vol. 86, Issue. 6, p. 1164.

CrossRef

Google Scholar

Liu, Lu Dehmamy, Nima Chown, Jillian Giles, C. Lee and Wang, Dashun 2021. Understanding the onset of hot streaks across artistic, cultural, and scientific careers. Nature Communications, Vol. 12, Issue. 1,

CrossRef

Google Scholar

Bornmann, Lutz Haunschild, Robin and Mutz, Rüdiger 2021. Growth rates of modern science: a latent piecewise growth curve approach to model publication numbers from established and new literature databases. Humanities and Social Sciences Communications, Vol. 8, Issue. 1,

CrossRef

Google Scholar

Li, Weihua Zhang, Sam Zheng, Zhiming Cranmer, Skyler J. and Clauset, Aaron 2022. Untangling the network effects of productivity and prominence among scientists. Nature Communications, Vol. 13, Issue. 1,

CrossRef

Google Scholar

Jonas, Mark Bittermann, André Chasiotis, Anita and Rosman, Tom 2022. To Have the Best Interest at Heart: Analyzing the Match Between Laypersons’ Interests and Publication Activity in Psychology. Frontiers in Psychology, Vol. 13, Issue. ,

CrossRef

Google Scholar

Vasan, Kishore Janosov, Milán and Barabási, Albert-László 2022. Quantifying NFT-driven networks in crypto art. Scientific Reports, Vol. 12, Issue. 1,

CrossRef

Google Scholar

Brodie, Roderick J Soutar, Geoffrey N and McColl-Kennedy, Janet R 2022. Research performance of Australian and New Zealand marketing academics: Achieving rigor and relevance. Australasian Marketing Journal, Vol. 30, Issue. 4, p. 273.

CrossRef

Google Scholar

2022. Broader scope is key to the future of ‘science of science’. Nature Human Behaviour, Vol. 6, Issue. 7, p. 899.

CrossRef

Google Scholar

Kwiek, Marek and Roszka, Wojciech 2022. Are female scientists less inclined to publish alone? The gender solo research gap. Scientometrics, Vol. 127, Issue. 4, p. 1697.

CrossRef

Google Scholar

Yin, Yian Dong, Yuxiao Wang, Kuansan Wang, Dashun and Jones, Benjamin F. 2022. Public use and public funding of science. Nature Human Behaviour, Vol. 6, Issue. 10, p. 1344.

CrossRef

Google Scholar

Jo, Woo Seong Liu, Lu and Wang, Dashun 2022. See further upon the giants: Quantifying intellectual lineage in science. Quantitative Science Studies, Vol. 3, Issue. 2, p. 319.

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He, Zhuoran Zhou, Tingtao and Mirjalili, Seyedali 2022. A model for cooperative scientific research inspired by the ant colony algorithm. PLOS ONE, Vol. 17, Issue. 1, p. e0262933.

CrossRef

Google Scholar

Haunschild, Robin and Bornmann, Lutz 2022. Identification of Potential Young Talented Individuals in the Natural and Life Sciences: A Bibliometric Approach. SSRN Electronic Journal ,

CrossRef

Google Scholar

Kwiek, Marek and Roszka, Wojciech 2022. Academic vs. biological age in research on academic careers: a large-scale study with implications for scientifically developing systems. Scientometrics, Vol. 127, Issue. 6, p. 3543.

CrossRef

Google Scholar

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Dashun Wang, Northwestern University, Illinois, Albert-László Barabási, Northeastern University, Boston

Publisher:: Cambridge University Press
Online publication date:: February 2021
Print publication year:: 2021
Online ISBN:: 9781108610834
DOI:: https://doi.org/10.1017/9781108610834

Subjects:: Physics and Astronomy, Knowledge Management, Databases and Data Mining, Computer Science, General and Classical Physics

24.99 (GBP)

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This is the first comprehensive overview of the 'science of science,' an emerging interdisciplinary field that relies on big data to unveil the reproducible patterns that govern individual scientific careers and the workings of science. It explores the roots of scientific impact, the role of productivity and creativity, when and what kind of collaborations are effective, the impact of failure and success in a scientific career, and what metrics can tell us about the fundamental workings of science. The book relies on data to draw actionable insights, which can be applied by individuals to further their career or decision makers to enhance the role of science in society. With anecdotes and detailed, easy-to-follow explanations of the research, this book is accessible to all scientists and graduate students, policymakers, and administrators with an interest in the wider scientific enterprise.

'Wang and Barabási book is a manifesto for the science of science domain. Graduate students (as well as their mentors) owe the authors a debt of gratitude for this impressive synthesis of what is a fast-evolving field of research.'

Pierre Azoulay - Massachusetts Institute of Technology

'Analyzing quantitative aspects of science with state-of-art tools, Wang and Barabási have written an insightful and comprehensive book that will become a must-read for all scholars interested in science.'

Yu Xie - Princeton University

'In their engaging book, Wang and Barabási take a fresh look at the science of science. They convincingly argue that in the age of big data and AI applying the scientific method to science itself not only helps understand how science works but may even enhance it. We are compelled to consider the determinants of individual careers and what this means in the age of large-scale scientific collaborations. These and other questions around the meaning of scientific impact, in academia and beyond, make the book highly relevant to scientists, academic administrators and funders alike. By the time the final, forward-looking chapter ends we are hooked on all the correlations and predictions, and so it is only fitting that we are invited to join in, to help shape the field which is likely to be driven by a human-machine collaboration.'

Magdalena Skipper - Nature

‘Overall, I found this book very stimulating. It made me wonder whether in-depth metrics analyses of ‘only’ the subjective narratives of authors, such as the references list they select, actually creates a foundation on which to form judgement rather than opinion? Namely, what fraction of these publications analysed for their metrics were actually underpinned by their data? As well as provoking thought, this book offers a feast of references, 424 in all. There are such further enticing reads as reference 396, Life3.0: Being Human in the Age of Artificial Intelligence. To conclude, I recommend this book for your library, and maybe even take it for your summer beach reading.’

John R. Helliwell Source: Journal of Applied Crystallography

‘… a text that should appeal to practicing scientists curious about the structure of the whole scientific enterprise, academic administrators and policy makers interested in evidence-based decision-making, and researchers interested in contributing further to the "science of science." There is no better, handier, and more readable work to appeal to such audiences … Highly recommended.’

M. Oromaner Source: Choice Connect

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The Science of Science

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