Cited by
1. Characterizing an online, science-based affinity space using topic modelling, diversity indices, and social network analysis
2. Behind the lab coat: How scientists’ self-disclosure on Twitter influences source perceptions, tweet engagement, and scientific attitudes through social presence
3. Web-based science communication at Research Institute level: balancing dissemination, dialogue and promotion in a major Italian scientific institution
4. The effects of self-disclosure and gender on a climate scientist’s credibility and likability on social media
5. Health Risk Communication During COVID-19 Emergency in Italy: The Impact of Medical Experts’ Debate on Twitter
6. Is it time to get over the X? Assessing the global impact and future of social media conferences in animal behaviour
7. ORCID Profil Tamamlama ve Türkiye'deki Akademisyenlerin Dijital Kimliği
8. Who Are the Science Audiences? A Typology Study on Digital Scientific Audiences: Persona, Performance, and Public
9. Controlled experiment finds no detectable citation bump from Twitter promotion
10. Faites de votre article un influenceur numérique
11. Future of Remote Sensing for Geohazards and Resource Monitoring
12. Space Weather in the Popular Media, and the Opportunities the Upcoming Solar Maximum Brings
13. Science communication on Twitter: Measuring indicators of engagement and their links to user interaction in communication scholars’ Tweet content
14. Relating popularity on Twitter and Linkedin to bibliometric indicators of visibility and interconnectedness: an analysis of 8512 applied researchers in Germany
15. The #Scicomm Phenomenon: Using and Analysing Big Data to Track Science Communication on Czech Research Institutional Websites
16. CIENTISTAS DA INFORMAÇÃO NO TWITTER
17. Science communication in experimental biology: experiences and recommendations
18. Post or perish? Social media strategies for disseminating orthopedic research
19. Twitter trends in #Parasitology determined by text mining and topic modelling
20. Neurofeedback on twitter: Evaluation of the scientific credibility and communication about the technique
21. Turning your paper into a digital influencer
22. Could the altmetrics wave bring a flood of confusion for anatomists?
23. Forms and functions of intertextuality in academic tweets composed by research groups
24. Birds of feather flock together: A longitudinal study of a social media outreach effort
25. Multimodal practices of research groups in Twitter: An analysis of stance and engagement
26. Scientists as Influencers: The Role of Source Identity, Self-Disclosure, and Anti-Intellectualism in Science Communication on Social Media
27. Universidades y redes sociales: De la divulgación científica a la autopromoción
28. ¿Tiene género la divulgación científica?
29. Understanding researchers’ Twitter uptake, activity and popularity—an analysis of applied research in Germany
30. Wissenschaftskommunikation und -PR im digitalen Zeitalter – Möglichkeiten sozialer Netzwerke für Forschende
31. Strategies for improving the communication of satellite-derived InSAR data for geohazards through the analysis of Twitter and online data portals
32. Editing the Final Draft
33. Characterizing Precision Nutrition Discourse on Twitter: Quantitative Content Analysis
34. Shaping Policy and Practice: Analyzing the Reach of Highly Cited and High Altmetrics Publications for Broader Impact on Physical Activity
35. Using Twitter for Public Dissemination and Engagement with Science: Metadiscourse on the Twitter Accounts of Scientific Organisations
36. An HCI Research Agenda for Online Science Communication
37. Social Media in Transplantation: An Opportunity for Outreach, Research Promotion, and Enhancing Workforce Diversity
38. Ecosystem Services: A Social and Semantic Network Analysis of Public Opinion on Twitter
39. Institutionalizing public engagement in research and innovation: Toward the construction of institutional entrepreneurial collectives
40. Effect of charismatic signaling in social media settings: Evidence from TED and Twitter
41. Engagement patterns with female and male scientists on Facebook
42. It's Beginning to Look a Lot like
#25DaysofFishmas
: Communicating Freshwater Biodiversity Using Social Media
43. The (R)evolution of Social Media in Oncology: Engage, Enlighten, and Encourage
44. Who tweets climate change papers? investigating publics of research through users’ descriptions
45. Social TV and the WWE: Exploring the fan-to-brand relationship in a highly engaged, live-viewing, interactive online space
46. Identifying widely disseminated scientific papers on social media
47. An inclusive venue to discuss behavioural biology research: the first global Animal Behaviour Twitter Conference
48. Introducing the EMPIRE Index: A novel, value-based metric framework to measure the impact of medical publications
49. ‘Give the Money Where it’s Due’: The Impact of Knowledge-Sharing via Social Media on the Reproduction of the Academic Labourer
50. Social Media Interaction as Informal Science Learning: a Comparison of Message Design in Two Niches
51. Make Your Science Go Viral: How to Maximize the Impact of Your Research
52. Social Paleontology on Twitter: A Case Study of Topic Archetypes, Network Composition, and Structure
53. Use of the Hashtag #DataSavesLives on Twitter: Exploratory and Thematic Analysis
54. Socially Responsible Consumption and Marketing in Practice
55. Exploring TikTok as a promising platform for geoscience communication
56. Retrospectively evidencing research impact using online data mining
57. Get More Eyes on Your Work: Visual Approaches for Dissemination and Translation of Education Research
58. Goodbye to “Rough Fish”: Paradigm Shift in the Conservation of Native Fishes
59. Fewer and Later: Women as Experts in TED Talks about COVID-19
60. Credibility of scientific information on social media: Variation by platform, genre and presence of formal credibility cues
61. Poetry as a Tool For Outreach in Quaternary Science: Examples From the 20th INQUA Congress
62. Themes, communities and influencers of online probiotics chatter: A retrospective analysis from 2009-2017
63. Chapter 4. Understanding academics online
64. Twitter conferences as a low‐carbon, far‐reaching and inclusive way of communicating research in ornithology and ecology
65. On the Coercive Nature of Research Impact Metrics: The Case Study of Altmetrics and Science Communication
66. Social media for clinical neurophysiology
67. Delivering eye health education to deprived communities in India through a social media‐based innovation
68. How to get your feet wet in public engagement: Perspectives from freshwater scientists
69. Innovation via social media – The importance of Twitter to science
70. March Mammal Madness and the power of narrative in science outreach
71. Self-promotion and the need to be first in science
72. A Social Media Campaign (#datasaveslives) to Promote the Benefits of Using Health Data for Research Purposes: Mixed Methods Analysis
73. Editorial: Geoscience communication – planning to make it publishable
75. Going rogue: what scientists can learn about Twitter communication from “alt” government accounts
76. Where are all the anthelmintics? Challenges and opportunities on the path to new anthelmintics
77. Five Organizational Features That Enable Successful Interdisciplinary Marine Research
78. Using interpersonal communication strategies to encourage science conversations on social media
79. The impact of preprints in Library and Information Science: an analysis of citations, usage and social attention indicators
80. Public Scholarship and CSCW
81. Social Media: A New Tool for Scientific Engagement
82. Quantifying and contextualizing the impact of bioRxiv preprints through automated social media audience segmentation
83. Expert communication on Twitter: Comparing economists and scientists’ social networks, topics and communicative styles
84. What the hashtag? Using twitter and podcasting to extend your scientific reach
85. Broadcasting Ourselves: Opportunities for Researchers to Share Their Work Through Online Video
86. Five Lessons from COVID-19 for Advancing Climate Change Mitigation
87. “People are reading your work,” scholarly identity and social networking sites
88. Who is Not Afraid of Richard Dawkins? Using Google Trends to Assess the Reach of Influential Atheists across Canadian Secular Groups
89. Altmetrics analysis of Archivos de Bronconeumología from 2014 to 2018
90. Análisis de las métricas alternativas de Archivos de Bronconeumología durante el periodo 2014-2018
91. Disseminating Research News in HCI
92. Using social media to promote academic research: Identifying the benefits of twitter for sharing academic work
93. #SoMe4Surgery: from inception to impact
94. Please, Don’t Kill It with Fire: An Exploration of Entomological Science Communication
95. Does really no one care? Analyzing the public engagement of communication scientists on Twitter
96. A Comparison of the Citing, Publishing, and Tweeting Activity of Scholars on Web of Science
97. How scientists and physicians use Twitter during a medical congress
98. Improving Climate-Change Literacy and Science Communication Through Smart Device Apps
99. Adoption of social media for scientific communication by PhD students
100. Social media to engage, communicate and interact
101. Of scientists and tweets
102. Geoscience analysis on Twitter
103. The reward and risk of social media for academics
104. Challenges and opportunities for biogeography—What can we still learn from von Humboldt?
105. Scientific Twitter: The flow of paleontological communication across a topic network
106. Measuring the Impact of Research Using Conventional and Alternative Metrics
107. Stepping Out of the Ivory Tower for Ocean Literacy
108. Getting to Know Science Tweeters: A Pilot Analysis of South African Twitter Users Tweeting about Research Articles
109. The Psychology of Connectivity: Follower Counts and Identity
110. Developing a social media strategy for R&D in energy efficiency – a case study in progress
111. Inter-disciplinary, multi-scale science to support society to adapt under global change
112. Science podcasts: analysis of global production and output from 2004 to 2018
113. Taking a Breath of the Wild: are geoscientists more effective than non-geoscientists in determining whether video game world landscapes are realistic?
114. Likes, comments, and shares of marine organism imagery on Facebook
115. Using Art To Communicate Chemistry
116. Public engagement opportunities for the indoor air community
117. Enhancing Climate Change Research With Open Science
118. Geoscientists online
119. Building and Sustaining Diverse Functioning Networks Using Social Media and Digital Platforms to Improve Diversity and Inclusivity
120. In the Search of Quality Influence on a Small Scale – Micro-influencers Discovery