Standout Papers

Emergence of Scaling in Random Networks 1999 2026 2008 2017 20.0k
  1. Emergence of Scaling in Random Networks (1999)
    Albert-Ĺaszló Barabási, Réka Albert Science
  2. Statistical mechanics of complex networks (2002)
    Réka Albert, Albert-Ĺaszló Barabási Reviews of Modern Physics
  3. Network biology: understanding the cell's functional organization (2004)
    Albert-Ĺaszló Barabási, Zoltán N. Oltvai Nature Reviews Genetics
  4. Understanding individual human mobility patterns (2008)
    Marta C. González, César A. Hidalgo et al. Nature
  5. Lethality and centrality in protein networks (2001)
    Hawoong Jeong, Albert-Ĺaszló Barabási et al. Nature
  6. Fractal Concepts in Surface Growth (1995)
    Albert-Ĺaszló Barabási, H. Eugene Stanley Cambridge University Press eBooks
  7. Network medicine: a network-based approach to human disease (2010)
    Albert-Ĺaszló Barabási, Natali Gulbahce et al. Nature Reviews Genetics
  8. Hierarchical Organization of Modularity in Metabolic Networks (2002)
    Erzsébet Ravasz Regan, Zoltán N. Oltvai et al. Science
  9. Fractal Concepts in Surface Growth (1995)
    Albert-Ĺaszló Barabási, H. Eugene Stanley et al. Physics Today
  10. Diameter of the World-Wide Web (1999)
    Réka Albert, Hawoong Jeong et al. Nature
  11. The human disease network (2007)
    K.-I. Goh, Michael E. Cusick et al. Proceedings of the National Academy of Sciences
  12. Controllability of complex networks (2011)
    Yang‐Yu Liu, Jean-Jacques Slotine et al. Nature
  13. Computational Social Science (2009)
    David Lazer, Alex Pentland et al. Science
  14. Limits of Predictability in Human Mobility (2010)
    Chaoming Song, Nicholas Blumm et al. Science
  15. The Product Space Conditions the Development of Nations (2007)
    César A. Hidalgo, Bailey Klinger et al. Science
  16. Scale-Free Networks (2003)
    Albert-Ĺaszló Barabási, Eric Bonabeau Scientific American
  17. Mean-field theory for scale-free random networks (1999)
    Albert-Ĺaszló Barabási, Réka Albert et al. Physica A Statistical Mechanics and its Applications
  18. Drug—target network (2007)
    Muhammed A. Yıldırım, K.-I. Goh et al. Nature Biotechnology
  19. The origin of bursts and heavy tails in human dynamics (2005)
    Albert-Ĺaszló Barabási Nature
  20. Linked: The New Science of Networks (2003)
    Albert-Ĺaszló Barabási et al. Physics Today
  21. Hierarchical organization in complex networks (2003)
    Erzsébet Ravasz Regan, Albert-Ĺaszló Barabási Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics
  22. Scale-Free Networks: A Decade and Beyond (2009)
    Albert-Ĺaszló Barabási Science
  23. Interactome Networks and Human Disease (2011)
    Marc Vidal, Albert-Ĺaszló Barabási et al. Cell
  24. Structure and tie strengths in mobile communication networks (2007)
    Jukka‐Pekka Onnela, Jari Saramäki et al. Proceedings of the National Academy of Sciences
  25. Uncovering disease-disease relationships through the incomplete interactome (2015)
    Jörg Menche, Amitabh Sharma et al. Science
  26. The Structure and Dynamics of Networks (2011)
    Mark Newman, Albert-Ĺaszló Barabási et al. Princeton University Press eBooks
  27. A universal model for mobility and migration patterns (2012)
    Filippo Simini, Marta C. González et al. Nature
  28. Linked: The New Science of Networks (2002)
    Eliot A. Cohen, Albert-Ĺaszló Barabási Foreign Affairs
  29. Quantifying social group evolution (2007)
    Gergely Palla, Albert-Ĺaszló Barabási et al. Nature
  30. Modelling the scaling properties of human mobility (2010)
    Chaoming Song, Tal Koren et al. Nature Physics
  31. Universal resilience patterns in complex networks (2016)
    Jianxi Gao, Baruch Barzel et al. Nature
  32. Science of science (2018)
    Santo Fortunato, Carl T. Bergstrom et al. Science
  33. Topology of Evolving Networks: Local Events and Universality (2000)
    Réka Albert, Albert-Ĺaszló Barabási Physical Review Letters
  34. Scale-free characteristics of random networks: the topology of the world-wide web (2000)
    Albert-Ĺaszló Barabási, Réka Albert et al. Physica A Statistical Mechanics and its Applications
  35. A Protein–Protein Interaction Network for Human Inherited Ataxias and Disorders of Purkinje Cell Degeneration (2006)
    Janghoo Lim, Tong Hao et al. Cell
  36. Competition and multiscaling in evolving networks (2001)
    Ginestra Bianconi, Albert-Ĺaszló Barabási Europhysics Letters (EPL)
  37. Linked: How Everything Is Connected to Everything Else and What It Means for Business, Science, and Everyday Life (2003)
    Albert-Ĺaszló Barabási Medical Entomology and Zoology
  38. Quantifying Long-Term Scientific Impact (2013)
    Dashun Wang, Chaoming Song et al. Science
  39. Historical comparison of gender inequality in scientific careers across countries and disciplines (2020)
    Junming Huang, Alexander J. Gates et al. Proceedings of the National Academy of Sciences
  40. Network-based prediction of drug combinations (2019)
    Feixiong Cheng, I. Kovács et al. Nature Communications
  41. Dynamic Scaling of Ion-Sputtered Surfaces (1995)
    Rodolfo Cuerno, Albert-Ĺaszló Barabási Physical Review Letters
  42. Human symptoms–disease network (2014)
    Xuezhong Zhou, Jörg Menche et al. Nature Communications
  43. Modeling bursts and heavy tails in human dynamics (2006)
    Alexei Vázquez, J. G. Oliveira et al. Physical Review E
  44. Control principles of complex systems (2016)
    Yang‐Yu Liu, Albert-Ĺaszló Barabási Reviews of Modern Physics
  45. Small but slow world: How network topology and burstiness slow down spreading (2011)
    Márton Karsai, Mikko Kivelä et al. Physical Review E
  46. Network-based in silico drug efficacy screening (2016)
    Emre Güney, Jörg Menche et al. Nature Communications
  47. Quantifying the evolution of individual scientific impact (2016)
    Roberta Sinatra, Dashun Wang et al. Science
  48. Returners and explorers dichotomy in human mobility (2015)
    Luca Pappalardo, Filippo Simini et al. Nature Communications
  49. Network Medicine Framework for Identifying Drug Repurposing Opportunities for COVID-19 (2020)
    Deisy Morselli Gysi, Ítalo Faria do Valle et al. PubMed Central
  50. Network science (2013)
    Albert-Ĺaszló Barabási Philosophical Transactions of the Royal Society A Mathematical Physical and Engineering Sciences
  51. The fundamental advantages of temporal networks (2017)
    Aming Li, Sean P. Cornelius et al. Science
  52. Target control of complex networks (2014)
    Jianxi Gao, Yang‐Yu Liu et al. Nature Communications
  53. Network-based prediction of protein interactions (2019)
    I. Kovács, Katja Luck et al. Nature Communications
  54. Machine learning prediction of the degree of food processing (2023)
    Giulia Menichetti, Dariush Mozaffarian et al. Nature Communications
  55. Quantifying NFT-driven networks in crypto art (2022)
    Albert-Ĺaszló Barabási et al. Scientific Reports

Immediate Impact

2 by Nobel laureates 63 from Science/Nature 177 standout
Sub-graph 1 of 18

Citing Papers

Computational approaches streamlining drug discovery
2023 StandoutNature
SARS-CoV-2 Cell Entry Depends on ACE2 and TMPRSS2 and Is Blocked by a Clinically Proven Protease Inhibitor
2020 Standout

Works of Albert-Ĺaszló Barabási being referenced

Network Medicine Framework for Identifying Drug Repurposing Opportunities for COVID-19
2020 Standout
Network-based in silico drug efficacy screening
2016 Standout

Author Peers

Author Last Decade Papers Cites
Albert-Ĺaszló Barabási 31998 42791 6828 13829 328 116.6k
M. E. J. Newman 10655 40777 2630 8007 171 69.6k
Réka Albert 11151 25449 1890 8426 157 48.0k
H. Eugene Stanley 16668 34677 27575 8020 1.3k 133.8k
Steven H. Strogatz 7134 26719 2715 20117 161 58.4k
Shlomo Havlin 9198 25467 8452 6659 692 53.6k
Duncan J. Watts 4501 23552 1466 6945 94 48.0k
Alessandro Vespignani 3090 20182 2901 3486 261 43.9k
Tamás Vicsek 4666 7877 9488 6119 214 30.9k
Geoffrey E. Hinton 12238 5422 380 6186 197 191.0k
Jürgen Kurths 5618 29096 1103 31395 1.3k 64.4k

All Works

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2026