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Science Citation Index Expanded

The Science Citation Index Expanded (SCIE) is a multidisciplinary citation database that indexes peer-reviewed journals in the natural sciences, engineering, and related fields, providing comprehensive bibliographic data, abstracts, and cited references to enable research discovery, impact analysis, and scholarly networking.^[1] Launched in 1964 by Eugene Garfield through the Institute for Scientific Information (ISI), it originated as the Science Citation Index (SCI) to address the need for tracing scientific influences via citations rather than traditional subject indexing.^[2] Over time, it expanded in scope and coverage, becoming the SCIE under Thomson Reuters and later Clarivate following the 2016 acquisition of ISI assets.^[2] As a core component of the Web of Science platform, SCIE covers 9,450 actively publishing journals across 182 subject categories (as of 2024), encompassing over 68.7 million records with coverage dating back to 1900.^[1] Its rigorous editorial selection process ensures high-quality, influential publications are included, supporting metrics like Journal Impact Factors through integration with Journal Citation Reports.^[3] This database plays a pivotal role in scientometrics, policy evaluation, and global research assessment by revealing citation networks and interdisciplinary connections.^[1]

History and Development

Origins and Creation

The Science Citation Index (SCI) was founded by Eugene Garfield in 1960 through the establishment of the Institute for Scientific Information (ISI) in Philadelphia, where Garfield served as president.^[4] This initiative built on Garfield's earlier conceptual work, including his 1955 proposal for citation indexing as a tool to enhance scientific documentation.^[5] The primary motivation for creating the SCI stemmed from the post-World War II explosion in scientific literature, which overwhelmed traditional subject-based indexing methods and hindered efficient retrieval of relevant research. Garfield recognized that the annual output of scientific papers had surged to an estimated 1–3 million articles across over 50,000 periodicals, necessitating a novel approach to trace the interconnections between ideas and publications.^[5] Citation indexing addressed this by focusing on references as pathways to related works, enabling multidisciplinary discovery and reducing reliance on subjective keywords or classifications.^[5] The inaugural SCI was launched in 1964 as a five-volume set, indexing citations from 613 key journals across 28 countries and covering the literature of 1961, with a multidisciplinary emphasis on core scientific fields.^[6] This initial edition processed approximately 1.4 million citations, marking the first comprehensive application of citation indexing to general science.^[4] Early production of the SCI faced significant challenges, including labor-intensive manual processes for collecting and coding bibliographic references onto IBM punched cards before computer sorting.^[6] Additionally, the novelty of citation-based retrieval required overcoming skepticism toward this untested method, as opposed to established subject indexing, and adapting to inconsistent citation practices in scientific publishing.^[7] These hurdles were navigated through pilot projects, such as the 1960 Genetics Citation Index, which validated the approach before the full SCI launch.^[7] The SCI later evolved into the Science Citation Index Expanded (SCIE), with online access provided through the Web of Science platform starting in 1997. In 2020, Clarivate integrated SCI fully into SCIE, streamlining the indexing structure.^[8]

Expansion and Milestones

The Institute for Scientific Information (ISI), creator of the Science Citation Index (SCI), underwent significant corporate transformations that influenced its expansion. In 1992, ISI was acquired by the Thomson Corporation, integrating it into Thomson Scientific & Healthcare and enabling broader resource allocation for database development.^[2] This acquisition facilitated enhanced technological infrastructure. Later, in 2016, Thomson Reuters' Intellectual Property and Science business, which included ISI's citation products, was spun off and rebranded as Clarivate Analytics in 2017, marking a shift toward specialized analytics and continued growth in coverage and functionality.^[9] Technological advancements drove key milestones in accessibility and format evolution. Initially published in print since 1964, the SCI transitioned to CD-ROM in 1988, allowing users to search citation data more efficiently on personal computers and reducing reliance on physical volumes.^[10] This digital shift paved the way for full online integration. In April 1997, the Web of Science platform launched, providing internet-based access to the SCI alongside the Social Sciences Citation Index and Arts & Humanities Citation Index, revolutionizing real-time citation searching and analysis.^[11] Additionally, in 1990, conference proceedings were incorporated via the Conference Proceedings Citation Index-Science, extending coverage to over 205,000 proceedings from that year onward and capturing emerging research trends beyond journals.^[12] Coverage expansions solidified the SCI's role as a comprehensive resource, evolving into the Science Citation Index Expanded (SCIE) to encompass a wider array of publications. By the early 2000s, journal coverage had grown from approximately 3,300 titles in 1991 to over 8,900 by 2002, enhancing multidisciplinary depth.^[13] As of 2025, SCIE covers 9,450 actively publishing journals across 182 subject categories, reflecting ongoing additions to address global research output.^[1] These developments prioritized high-impact, peer-reviewed content while adapting to the exponential growth in scientific publishing.

Scope and Coverage

Disciplines and Journal Selection

The Science Citation Index Expanded (SCIE) primarily covers the natural sciences, engineering, and biomedicine, encompassing 182 subject categories such as physics, chemistry, biology, and materials science.^[1] It also includes select interdisciplinary areas that intersect with the sciences, like computer science and biotechnology, but excludes dedicated social sciences coverage, which is handled by the separate Social Sciences Citation Index (SSCI).^[14] This focus ensures comprehensive indexing of high-impact research in core scientific fields, with over 9,450 actively publishing journals contributing to more than 68.7 million records since 1900.^[1] Journal selection for SCIE is managed by Clarivate's in-house editorial team through a rigorous, objective process using 28 standardized criteria divided into 24 quality measures and 4 impact measures.^[14] Quality criteria emphasize editorial rigor, including robust peer review processes, adherence to best practices like those from the Committee on Publication Ethics (COPE), clear scope alignment, and ethical standards such as transparency in publishing.^[14] Impact criteria evaluate citation activity, journal stability, and influence within the field, prioritizing publications that demonstrate significant scholarly contribution. In the 2025 Journal Citation Reports, Clarivate introduced measures to exclude citations to and from retracted articles in Journal Impact Factor calculations to further uphold research integrity.^[15]^[14] The process involves annual reviews, where journals are re-evaluated post-release of Journal Citation Reports (JCR), and new submissions undergo initial screening before potential inclusion in the Emerging Sources Citation Index (ESCI) as a stepping stone to SCIE.^[14] To combat predatory publishing, particularly following scandals in the 2010s highlighted by lists like Jeffrey Beall's, Clarivate enforces strict policies that exclude journals failing quality thresholds, with explicit removal for those exhibiting predatory behaviors such as lack of transparency, manipulated citations, or inadequate peer review.^[1]^[16] These measures prioritize citation integrity and guard against hijacked or low-quality titles, ensuring only reputable outlets are indexed.^[1] Efforts to promote diversity in SCIE inclusion have accelerated since the 2000s, incorporating open-access journals that meet the standard criteria and fostering international representation through requirements for geographic diversity on editorial boards and among authors.^[14] While primarily focused on English-language content, SCIE has expanded to include select non-English journals, particularly those providing English abstracts or versions, to better reflect global scientific output, though English editions are prioritized in bilingual cases to avoid duplication.^[17] This approach supports broader accessibility without compromising quality.^[14]

Content Volume and Updates

The Science Citation Index Expanded (SCIE) maintains a substantial database scale, encompassing over 9,450 actively publishing journals and more than 68.7 million records as of 2025, with coverage extending back to 1900 for select content.^[1] These records include comprehensive metadata such as author affiliations and subject classifications across 182 categories, primarily spanning the natural sciences, engineering, and biomedical fields.^[1] The database features billions of cited references, enabling detailed analysis of scholarly interconnections and impact within the scientific literature.^[18] Content types focus on peer-reviewed journal publications, including original research articles, review articles, and letters, which form the core of its indexing.^[1] Since the 2010s, the broader Web of Science platform has integrated additional formats like books via the Book Citation Index and datasets through the Data Citation Index, enhancing SCIE's utility for multifaceted research discovery.^[19] SCIE receives weekly updates, adding approximately 19,000 new records and 423,000 cited references each week to reflect the latest publications.^[20] Additionally, an annual re-evaluation process assesses journal status, ensuring ongoing quality and relevance in the indexed corpus.^[15] Historically, the SCIE originated from the Science Citation Index launched in 1964, which initially covered 613 journals and indexed 1.4 million citations from a single year of literature.^[21] Its growth has been remarkable, expanding from 1.3 million citations in its early volumes to the current billions, with a notable surge in the post-2000 era driven by the shift to digital publishing and increased global research output.^[4] This digital expansion has facilitated more frequent updates and broader accessibility, solidifying SCIE's role as a foundational resource for scientific bibliometrics.^[4]

Indexing Methodology

Citation Tracking Process

The citation tracking process in the Science Citation Index Expanded (SCIE) begins with the parsing of reference lists from newly indexed articles, where each cited work is extracted and linked as an incoming citation to the original publication, thereby creating a network of connections across the database. This core mechanism enables the identification of both backward citations—referring to earlier works that influenced the current article—and forward citations, which are dynamically updated as subsequent publications reference older ones within the indexed corpus. By systematically recording these links, SCIE facilitates the mapping of intellectual influence over time, with all cited references fully indexed regardless of whether the cited work itself is part of the core collection.^[22] The process involves several key steps to ensure reliability and accuracy. First, bibliographic data from references is automatically extracted using metadata from publisher-supplied PDFs or XML files, capturing elements such as authors, titles, journal names, volumes, and page numbers. This automated parsing is followed by disambiguation efforts to resolve inconsistencies in reference formatting, author names, and identifiers, standardizing them for precise matching against the database's records. Indexing specialists then perform manual quality checks, evaluating the completeness and compatibility of the data to verify document types and citation validity, with any issues addressed through publisher notifications or re-submissions. These steps collectively minimize errors in citation attribution, supporting robust linkage across the multidisciplinary scope of SCIE.^[23]^[22] Temporal coverage in SCIE's citation tracking extends backward to the original publication dates of indexed works, dating back to 1900 for foundational science literature, allowing researchers to trace historical influences. Forward tracking, in contrast, is continuously updated to the present, with early access content accruing citations immediately upon indexing using DOIs and other permanent identifiers, ensuring real-time reflection of emerging research impacts. This bidirectional approach provides a comprehensive view of citation evolution without temporal gaps in the covered period.^[23] A distinctive feature of SCIE's process is its multidisciplinary linking, which connects citations across diverse scientific fields, such as from astrophysics to biology, enabling cross-disciplinary analysis of knowledge transfer and innovation. Integrated within the broader Web of Science platform, this facilitates seamless exploration of citation networks beyond siloed disciplines.^[22]

Data Structure and Metrics

The Science Citation Index Expanded (SCIE) structures its database around detailed metadata fields that facilitate comprehensive bibliographic and citation analysis within the Web of Science Core Collection. Core fields encompass article identifiers and content descriptors, including the document title (TI), author names (AU) and full author names (AF), abstracts (AB), author-assigned keywords (DE), algorithm-generated Keywords Plus (ID) for expanded search terms derived from cited references, and the number of cited references (NR).^[24] These elements are complemented by persistent identifiers and contextual data, such as the Digital Object Identifier (DOI, DI) for unique article linking and funding acknowledgments, including funding agency and grant numbers (FU) as well as full funding text (FX).^[24] Full reference lists (CR) are also indexed, enabling backward and forward citation mapping across the dataset.^[24] SCIE's metrics emphasize journal-level and normalized indicators derived from citation data, with the Journal Impact Factor (JIF) serving as a primary measure of a journal's citation influence. The JIF is computed annually using the formula:

\text{JIF}_t = \frac{\text{Citations in year } t \text{ to items published in } t-1 \text{ and } t-2}{\text{Number of citable items published in } t-1 \text{ and } t-2}

where citable items typically include research articles and reviews.^[25] This ratio quantifies the average citations per citable item over a two-year window, providing a benchmark for journal prestige in specific disciplines.^[25] Additional journal metrics include the Eigenfactor Score, which evaluates a journal's overall influence by aggregating citations received over five years, weighted by the citing journal's impact and excluding self-citations to avoid bias.^[26] The Article Influence Score builds on this by normalizing the Eigenfactor by the number of articles in the journal and scaling it such that a score of 1.0 represents the average influence across all journals, with higher values indicating greater per-article impact.^[26] These scores, integrated into Journal Citation Reports, offer alternatives to JIF by accounting for network effects in citation flows.^[26] For article-level and comparative analysis, SCIE incorporates advanced normalized indicators such as Category Normalized Citation Impact (CNCI), calculated as the ratio of a document's actual citations to its expected citations based on the average for similar documents in the same field, publication year, and type, yielding a mean of 1.0 across the category.^[27] Percentile rankings complement CNCI by assigning a document or journal's position (e.g., top 10%) relative to peers in its category, derived from ordered citation distributions without self-citations in core normalization steps.^[28] These metrics enable field-adjusted evaluations, prioritizing relative performance over absolute counts.^[27]

Features and Functionality

Search and Analysis Tools

The Science Citation Index Expanded (SCIE), accessible through the Web of Science platform, offers a range of search options designed to facilitate precise retrieval of scientific literature. Users can perform keyword searches across full text, titles, abstracts, and author keywords to identify relevant articles. Author searches allow querying by individual researchers or groups, while cited reference searches enable tracing forward and backward citations to explore influence networks. Topic searches target specific subject areas, and for chemistry-related queries, chemical structure searches permit drawing molecules or uploading MOL files to find matching compounds in indexed journals.^[29]^[30] These searches support advanced operators to refine results, including Boolean logic such as AND for intersection, OR for union, and NOT for exclusion, which must be entered in uppercase to activate. Proximity operators like NEAR/x (where x specifies word distance up to 255) and SAME (for terms in the same sentence or paragraph) enable nuanced phrase detection without exact ordering. Field tags, such as TS= for topic or AU= for author, allow targeted queries in the Advanced Search interface, with no limit on operator combinations beyond practical retrieval constraints.^[31]^[32]^[33] Analysis tools within SCIE emphasize citation-based insights and trend identification. Citation reports provide summaries of citation counts, h-index, and co-citation patterns for selected records, highlighting impact metrics. Research trend visualizations include usage reports tracking download and citation frequencies over time, as well as displays of highly cited papers that rank the top 1% by field and year. Data can be exported in formats compatible with bibliometric software, such as tab-delimited text files for VOSviewer, enabling network mapping of co-authorships, keywords, and citations.^[34]^[35]^[36] Advanced features extend these capabilities for institutional and global benchmarking. InCites Benchmarking & Analytics integrates SCIE data to compare research performance across organizations, offering metrics like normalized citation impact and collaborative networks for strategic decision-making. Essential Science Indicators (ESI) identifies top performers, such as highly cited researchers and institutions, by analyzing SCIE articles and reviews in the top 1% of citations within 22 research categories, updated bimonthly.^[37]^[36] The user interface for SCIE has evolved significantly since its integration into Web of Science. In the 1990s, access relied on CD-ROM versions with form-based or early command-like inputs for queries, limiting interactivity. By the late 1990s, the web-based launch in 1997 introduced graphical navigation and basic search forms. The 2020s platform incorporates AI enhancements, such as the Web of Science Research Assistant, which uses generative AI for natural language querying, topic suggestions, and literature overviews, reducing reliance on manual Boolean construction. In 2025, updates included new AI features on March 27 and agentic AI capabilities launched on April 10, further advancing research workflows and insights.^[38]^[39]^[40]^[41]

Integration with Broader Platforms

The Science Citation Index Expanded (SCIE) serves as a foundational component of the Web of Science Core Collection, integrated since the platform's evolution into a unified database ecosystem in the early 2000s, where it operates alongside the Social Sciences Citation Index and Arts & Humanities Citation Index to provide multidisciplinary coverage.^[34] This core integration enables seamless navigation across scientific, social, and humanities literature within a single interface, facilitating comprehensive citation analysis without the need for separate database subscriptions.^[1] SCIE data is accessible through various APIs and data feeds that support interoperability with researcher management tools, including EndNote for reference organization, Publons (now integrated into Clarivate's researcher profiles) for peer review tracking, and ORCID for automated syncing of publication records to individual researcher IDs.^[42] These connections allow users to export SCIE-indexed citations directly into personal profiles, enhancing workflow efficiency and ensuring accurate attribution of scholarly contributions.^[43] Furthermore, linkages to external platforms like Dimensions enable cross-referencing of SCIE data with broader altmetric and funding information, while compatibility with Scopus supports comparative bibliometric studies across competing citation databases.^[44] Collaborative features such as the Master Journal List extend SCIE's utility by compiling metadata from all Web of Science indexes, allowing researchers to evaluate journal quality and scope for submissions or comparisons within the ecosystem.^[45] This list aids in cross-database assessments by highlighting overlaps and distinctions with non-Web of Science sources, promoting informed decisions in journal selection.^[46] Additionally, SCIE contributes to global open access initiatives like Plan S through Clarivate's data provision to compliance tools.^[47] In the 2020s, Clarivate has advanced SCIE's integration via cloud-based access on the Web of Science platform, enabling remote, scalable querying without local installations, and introducing AI-driven insights through tools like the Web of Science Research Assistant launched in 2024. This generative AI feature analyzes SCIE citation networks to generate summaries, visualize research trends, and recommend connections, transforming raw index data into actionable intelligence for accelerated discovery. In 2025, updates included new AI features on March 27 and agentic AI capabilities launched on April 10, further enhancing these integrations.^[30]^[48]^[40]^[41]

Accessibility and Availability

Subscription and Licensing

The Science Citation Index Expanded (SCIE) operates primarily on an institutional subscription model administered by Clarivate, targeting universities, research organizations, and libraries worldwide.^[1] Access is granted through annual licenses that provide comprehensive coverage of the database, including citation data, abstracts, and analytical tools within the Web of Science platform.^[30] Individual subscriptions are not typically offered, emphasizing collective institutional use to support research communities.^[34] Pricing for SCIE subscriptions is tiered and customized based on factors such as the institution's full-time equivalent (FTE) student population, research output, or projected usage, with negotiations determining final costs. Annual fees can vary significantly, often ranging from tens of thousands of dollars for smaller institutions to substantial multi-year investments for large research universities, reflecting the database's extensive scope and update frequency.^[49] Perpetual access options for archived data are available, allowing institutions to purchase ongoing rights to historical content beyond active subscription periods, though this is separate from current updates.^[50] Licensing agreements for SCIE emphasize secure, authorized access, commonly utilizing IP-based authentication to verify users from subscribing institutions and enabling remote access through proxy servers like EZproxy.^[51] These terms prohibit unauthorized redistribution, commercial exploitation, or systematic data extraction—such as large-scale downloading or text/data mining—without explicit prior approval from Clarivate, ensuring compliance with intellectual property protections.^[52] Violations can result in access suspension.^[53] In alignment with open access trends, SCIE integrates tools like Unpaywall via a partnership with OurResearch, allowing subscribers to identify and link to free versions of articles, including abstracts and full texts from repositories.^[54] While core database records require subscription, this facilitates hybrid access to openly available content, such as that deposited in PubMed Central, enhancing discoverability without direct free previews of all abstracts.^[55]

Usage Statistics and Global Reach

The Science Citation Index Expanded (SCIE), as a core component of the Web of Science platform, enjoys widespread adoption among leading academic institutions, with 99% of the world's top 400 universities utilizing Clarivate's research solutions that incorporate SCIE for discovery and analysis.^[56] This high level of integration underscores its status as a foundational tool for scholarly research, supporting over 271 million detailed metadata records across disciplines (as of 2025).^[30] User demographics for SCIE and the broader Web of Science platform are dominated by academic and research institutions, including universities, government labs, and corporate R&D entities, where it serves as a primary resource for citation tracking and literature review.^[30] Usage is particularly concentrated in North America and Europe, which together account for the majority of global accesses due to established research infrastructures, while Asia exhibits rapid expansion driven by increasing research output from countries like China and India. Growth metrics highlight SCIE's expanding role in developing countries, with significant increases in subscriptions and institutional adoptions, particularly in Asia-Pacific and Latin American regions, as evidenced by the rising number of indexed journals. This expansion is further supported by its incorporation into national research assessments, such as the UK's Research Excellence Framework (REF), where Web of Science data informs quality evaluations, and Australia's Excellence in Research for Australia (ERA), for which Clarivate provides exclusive citation metrics.^[57] Accessibility initiatives have bolstered SCIE's global reach through consortia arrangements and regional integrations since the early 2000s, including partnerships that enable shared subscriptions among institutions in Latin America and Africa, complemented by the inclusion of open-access collections like SciELO Citation Index covering journals from those areas.^[58] These efforts have facilitated broader penetration in resource-constrained settings, aligning with subscription models that promote collective access, though some institutions have faced affordability challenges leading to subscription cancellations as of 2025.^[59]^[60]^[56]

Impact and Applications

Role in Research Evaluation

The Science Citation Index Expanded (SCIE) plays a pivotal role in research evaluation by providing comprehensive citation data that informs decisions on academic tenure and promotion. Universities often incorporate SCIE-derived metrics, such as citation counts and journal impact factors (JIF), into faculty assessments to quantify research productivity and influence, enabling standardized comparisons across candidates. For instance, some institutions explicitly reference JIF—calculated using SCIE-indexed journals—in promotion guidelines to evaluate publication quality and scholarly impact. This integration helps committees objectively gauge contributions to scientific advancement beyond qualitative reviews. In grant allocation processes, SCIE metrics support funding bodies like the European Research Council (ERC) and the U.S. National Science Foundation (NSF) by offering benchmarks for proposal and investigator evaluations. Prior to 2021, ERC panels considered JIF and relative citation impacts from SCIE data to assess applicant track records, though such quantitative indicators are now prohibited in favor of qualitative peer review. Similarly, NSF reviewers may reference SCIE citation statistics in broader contexts, such as verifying intellectual merit through publication influence, complementing the core criteria of innovation and societal benefits. Institutional rankings, including the QS World University Rankings, rely on citation databases such as SCIE and Scopus for their citations per faculty indicator, which accounts for 20% of the overall score and measures research output's global reach.^[61] SCIE has facilitated the standardization of research productivity measurement, shifting evaluations from subjective judgments to data-driven approaches that emphasize citation-based indicators for comparability across disciplines and institutions. This standardization promotes consistent metrics like h-index and total citations, derived from SCIE's extensive database, aiding policymakers and administrators in allocating resources efficiently. Additionally, SCIE enables co-citation analysis to map collaboration networks, revealing interdisciplinary connections and influential research clusters that enhance evaluations of team-based productivity and knowledge diffusion. Historically, SCIE contributed to the 1970s transition from qualitative to quantitative research assessment, underpinning the emergence of scientometrics as a field dedicated to measuring scientific output and impact. By providing traceable citation pathways, it supported early efforts to quantify knowledge flows, influencing global science policies toward evidence-based funding and prioritization. A notable case is China's adoption of SCI (precursor to SCIE) in the late 1980s and 1990s, where institutions like Nanjing University prioritized SCIE-indexed publications in reforms to internationalize research and align evaluations with global standards, boosting national output in high-impact journals.

Criticisms and Limitations

The Science Citation Index Expanded (SCIE) has been criticized for its significant English-language bias, with over 80% of indexed papers published in English as early as 1978, rising to approximately 98% by 2015, which systematically disadvantages research from non-Anglophone regions and languages. This bias arises because selection criteria favor journals with high international visibility, predominantly those in English, leading to underrepresentation of non-English publications and skewing global research assessments toward English-speaking countries. For instance, studies show that non-English papers receive fewer citations even when comparable in quality, perpetuating inequities in scientific recognition and funding for researchers from diverse linguistic backgrounds.^[62] A major critique involves the misuse of journal impact factors derived from SCIE data, which has fueled a "publish or perish" culture in academia, prioritizing quantity over quality and incentivizing manipulative practices. Overemphasis on impact factors for hiring, promotions, and funding has led to widespread gaming, including citation cartels where journal editors or groups mutually cite each other's work to inflate metrics; such practices were notably detected and addressed in the 2010s, with Thomson Reuters (now Clarivate) suppressing impact factors for affected journals in 2015 and 2016. These issues undermine the reliability of SCIE-based evaluations, as artificial citation inflation distorts true scholarly influence.^[63] SCIE also faces limitations in its coverage, as it primarily indexes peer-reviewed journal articles and excludes books, monographs, and gray literature such as conference proceedings, reports, and preprints, thereby overlooking significant portions of scientific output especially in fields like humanities and social sciences where monographs are prevalent. Additionally, there is a notable lag in indexing, often up to 6 months or more from publication to inclusion in the database, which delays visibility and citation tracking for recent research.^[1]^[64] In response to these criticisms, the San Francisco Declaration on Research Assessment (DORA), launched in 2012, advocates for alternatives to journal-based metrics like impact factors, urging institutions to evaluate research on its merits rather than SCIE-derived rankings to mitigate biases and misuse. Clarivate has also enhanced transparency since 2018 by providing detailed breakdowns of impact factor calculations in Journal Citation Reports, including data on self-citations and other potential distortions, to promote more responsible use of its metrics.^[65]

Core Citation Indexes

The Social Sciences Citation Index (SSCI), introduced in 1973 by the Institute for Scientific Information (now part of Clarivate), is a multidisciplinary citation database that indexes high-quality journals in the social sciences.^[2] It covers 3,541 journals across 47 disciplines, including psychology, economics, sociology, political science, and anthropology, providing access to publication and citation data dating back to 1900.^[66] This index enables researchers to trace the influence of social science literature through cited references, facilitating the discovery of impactful works in fields that often intersect with scientific inquiry. Complementing the SSCI, the Arts & Humanities Citation Index (AHCI), launched in 1978, focuses on scholarly output in the arts and humanities.^[2] It includes approximately 1,800 actively publishing journals across 25 subject categories, such as literature, history, philosophy, music, and visual arts, with records extending back to 1975.^[67] Like its counterparts, the AHCI employs rigorous editorial selection to ensure coverage of influential publications, allowing users to explore citations in non-empirical fields where traditional impact metrics may be less prevalent. These core citation indexes—SSCI, AHCI, and the Science Citation Index Expanded (SCIE)—share a foundational methodology rooted in comprehensive citation tracking, where references from source documents are systematically indexed to reveal interconnections across publications.^[34] They are integrated within the Web of Science platform, enabling seamless cross-disciplinary searches that combine scientific, social, and humanistic perspectives for broader research insights. Following the 1992 acquisition of ISI by the Thomson Corporation and the 2016 acquisition of the Intellectual Property and Science business by Clarivate, these indexes have undergone unified updates, including enhanced digital accessibility, expanded coverage, and harmonized metrics such as the Journal Impact Factor, to support evolving research evaluation needs.^[2]

Specialty and Regional Variants

The Science Citation Index Expanded (SCIE) has inspired several specialty variants tailored to specific scientific domains, enhancing coverage in areas where the core index may have limitations in depth or format. One prominent example is the BIOSIS Citation Index, which originated from Biological Abstracts established in 1926 by the Union of Biological Societies.^[68] This variant provides comprehensive indexing for life sciences literature, including journals, books, conferences, and patents, with over 30 million records spanning biological and biomedical research.^[68] It complements SCIE by offering specialized, scientist-curated indexing with organism, taxonomic, and MeSH terms, addressing gaps in interdisciplinary life sciences that extend beyond SCIE's journal-focused scope.^[68] Another key specialty variant is the Conference Proceedings Citation Index (CPCI), introduced in 1990 as part of the Web of Science Core Collection.^[69] CPCI indexes over 316,000 conferences, capturing more than 13.7 million records from scientific, social sciences, arts, and humanities meetings.^[69] Its purpose is to track the rapid dissemination of emerging research in conference-heavy fields such as engineering, where timely idea exchange often precedes journal publication, filling a void in SCIE's emphasis on peer-reviewed journals.^[69] For instance, in engineering disciplines, CPCI enables citation analysis of innovative concepts shared at professional meetings, revealing influences not yet reflected in traditional journal metrics.^[70] On the regional front, the Emerging Sources Citation Index (ESCI), launched in 2015, serves as a variant to broaden SCIE's global reach by including high-quality, peer-reviewed journals from underrepresented and developing regions.^[71] ESCI covers multidisciplinary content from over 9,000 journals, focusing on evolving disciplines and geographic areas often overlooked in core indexes, such as publications from Latin America, Africa, and Asia.^[71] This integration allows for cited reference searching across these sources, promoting visibility for research from developing regions without immediate requirements for established impact factors.^[72] Similarly, the Chinese Science Citation Database (CSCD), developed in partnership with the Chinese Academy of Sciences and integrated into the Web of Science platform since 2007, acts as a regional variant for Chinese-language scientific output.^[58] It indexes over 1,200 core Chinese journals across natural sciences and engineering, providing full bibliographic and citation data to capture China's rapidly growing research enterprise.^[58] By addressing language and regional barriers in SCIE, CSCD enables cross-referencing with global literature, highlighting contributions from an underrepresented scholarly ecosystem.^[58] These variants collectively address SCIE's gaps by incorporating non-traditional formats and diverse geographies, with tailored evaluation metrics for non-journal content such as proceedings.^[73] Unlike journal impact factors, which are not applied to proceedings, CPCI and similar indexes use adapted scores like normalized citation impact and total citation counts to assess influence, accounting for the shorter lifespan and field-specific norms of conference outputs.^[74] This approach ensures equitable evaluation of specialty and regional contributions within the broader citation network.^[75]

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Jun 18, 2025 · The JCR includes data from a total of 22,249 journals across 254 categories · Over 6,200 of these were published via gold open access ...Missing: Expanded | Show results with:Expanded
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Eugene Garfield Starts the Science Citation Index
published the first Science Citation Index Offsite Link in five printed volumes, indexing 613 journals and 1.4 million citations, using the method of ...
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The concept of citation indexing | Clarivate
Clarivate databases index these intellectual transactions by listing both the cited and citing works. (That is, the cited work is a paper or book that has been ...
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Content collection and indexing process | Clarivate
A robust editorial selection process, continuous curation, and meticulous indexing make Web of Science Core Collection™ the world's most trusted ...Missing: tracking | Show results with:tracking
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Web of Science Core Collection: List of field tags in output
The following are a list of the Web of Science Core Collection field tags (Articles, Books, and Conference Proceedings).Missing: SCIE | Show results with:SCIE
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The Clarivate Impact Factor
The annual JCR impact factor is a ratio between citations and recent citable items published. Thus, the impact factor of a journal is calculated by dividing the ...Missing: Eigenfactor | Show results with:Eigenfactor<|control11|><|separator|>
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A Closer Look at the Eigenfactor™ Metrics | Clarivate
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Category Normalized Citation Impact (CNCI)
May 19, 2025 · The Category Normalized Citation Impact (CNCI) of a document is calculated by dividing the actual count of citing items by the expected citation rate.Calculating CNCI · Research Area explorer with... · Known Issues Using CNCI
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Articles Journal Citation Reports: Quartile rankings and other metrics
It's calculated by using the following formula: Journal Impact Factor Percentile = (N – R + 0.5) / N Where N is the number of journals in the category and R ...
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Structure Search - Web of Science
Dec 31, 2024 · You can search for a structure by either drawing the molecules using the built-in Elemental drawing tool or by uploading a MOL file from your computer.Missing: Expanded | Show results with:Expanded
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Web of Science Platform | Clarivate
The new Policy Citation Index on the Web of Science platform links policy documents to the research papers they cite, helping researchers and institutions ...Science Citation Index · Book Citation Index · Data Citation Index · Contact us
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Search Operators - Web of Science
Oct 17, 2025 · All Fields searches are limited to 49 Boolean or proximity operators. The Korean Journal Database doesn't include SAME as a search operator.
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Web of Science: Order of precedence for Boolean operators
The search (Boolean) operators AND, OR, NOT, SAME, and NEAR/x can be used to combine search terms in order to broaden or narrow retrieval.
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Search Rules - Web of Science
Dec 30, 2024 · Web of Science supports searching Boolean and proximity search operators. There is no limit to the number of Boolean or proximity operators ...Lemmatization and Left-hand... · Left-Hand Truncation · Hyphens and Apostrophes
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Web of Science Core Collection | Clarivate
Web of Science Core Collection is the world's most trusted citation index, enabling discovery of research across a curated, multidisciplinary set of ...Science Citation Index · Social Sciences Citation Index · Editorial selection process
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Getting Started - VOSviewer
When working with Web of Science, make sure to select the 'Web of Science Core Collection' and to export data to a tab-delimited text file, choosing the ...
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Essential Science Indicators: Learn the Basics
Feb 26, 2025 · Essential Science Indicators (ESI) is an analytical tool that helps you identify top-performing research in Web of Science Core Collection.Print Guides · Training Options · Esi Data
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InCites Benchmarking & Analytics for academic research institutions
Analyze impact and benchmark results using responsible indicators to better understand your research institution's strengths and weaknesses. Find out more.<|separator|>
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Apr 24, 2025 · “[Smart] Search is intuitive and user-friendly, making it easier to search for documents and researchers without requiring complex Boolean ...Missing: proximity | Show results with:proximity
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Web of Science AI Research Assistant - Clarivate
The Web of Science Research Assistant leverages AI to help researchers at all levels get more out of the world's most trusted citation database.Missing: 2020s | Show results with:2020s
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Create & Manage Your Academic Researcher Profile - Clarivate
Save time with a profile that automatically updates, syncs with ORCID, and exports with a few clicks. Efficiently manage your profile and provide access to ...Missing: Dimensions | Show results with:Dimensions
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Importing works from other systems - ORCID Support
Search and link tools that allow you to import information about publications and other works into your ORCID record from other databases.Missing: EndNote Dimensions
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Google Scholar, Microsoft Academic, Scopus, Dimensions, Web of ...
Sep 21, 2020 · The Dimensions API allows searching by DOI. Therefore, all seed highly-cited documents were searched for using their DOI, and, when unavailable, ...Missing: EndNote Publons
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Web of Science Master Journal List - WoS MJL by Clarivate
The Master Journal List is an invaluable tool to help you to find the right journal for your needs across multiple indices hosted on the Web of Science platform ...
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Web of Science: Master Journal List - Support - Clarivate
The Master Journal List includes all journals indexed in Web of Science, including the complete list of journals in Web of Science Core Collection.Missing: cross- database comparisons
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Compliance | Plan S - cOAlition S
Use the Journal Checker Tool to check compliance. Authors can make the final version or AAM openly available in a repository to comply with Plan S.
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Clarivate Launches Generative AI-Powered Web of Science ...
Sep 4, 2024 · The new generative AI-powered tool helps researchers find key papers faster, handle complex research tasks and visualize connections.
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New World, Same Model | Periodicals Price Survey 2017
Apr 19, 2017 · Most publishers have explored new ways of pricing their content—such as population served, FTE (full-time equivalent), tiered pricing based upon ...
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New agreement provides access to Web of Science database
Oct 24, 2023 · University Libraries has negotiated a new, long-term agreement with Clarivate Analytics to reestablish University of Arizona access to the Web of Science ...
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Product/Service Terms - Clarivate
Web of Science Research Intelligence. Web of Science Reviewer Recognition. Web of Science: Custom Data Sets. Web of Science: Perpetually Licensed Information ...
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EZproxy: Access and authentication software - OCLC
EZproxy connects on their behalf with an authorized IP address so content providers permit access. You can configure it to grant access by groups to meet ...Missing: Science Citation Index terms
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[PDF] Electronic resource authentication and authorization - Publish
... EZproxy server's IP address to the content provider. The content provider recognizes the EZproxy IP address as an authorized IP address – coming from an.Missing: Science Citation Expanded
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What Will You Do When They Come for Your Proxy Server?
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Open Research and Open Access - Clarivate
We use our data and expertise to help shed light on a complicated and quickly moving research landscape. Read our ISI Global Research Report on Plan S.Unlocking The Potential Of... · Investing In Open Science... · Intelligence, Data And Tools...Missing: compliance | Show results with:compliance<|separator|>
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Open Access - Web of Science
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Academia & Research Data Solutions - Clarivate
99%. of top 400 universities use our solutions to accelerate research and education ; 26k+. academic libraries benefit from our best-in-class content and ...Web of Science Platform · Web of Science Research... · Web of Science Reviewer
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[PDF] THE GLOBALIZATION OF WEB OF SCIENCESM: 2005-2010
Countries from Europe (Eastern and Western), Asia-Pacific, South America, and the Middle East have all made significant advances in their representation of ...
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Clarivate Analytics exclusive provider of Web of Science citation ...
... Australia (ERA). Web of Science will be the exclusive source of citation data for the ARC to use when assessing the quality of research at Australian higher ...
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Web of Science Regional Citation Databases - Clarivate
Web of Science regional collection includes global citation databases to make journals from all over the world more accessible. Read more.1,340 · 6.6m+ · 1m+Missing: Europe Asia
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The changing role of non‐English papers in scholarly ...
Dec 20, 2016 · Non-English languages are widely used, but their roles in scholarly communication are relatively under-explored. By using Web of Science's ...
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What do we know about journal citation cartels? A call for information
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Reasons for delayed publication in Scopus and Web of Science ...
The terms of publication of a scientific article in the international databases Scopus and Web of Science take from 6 to 9 months - according to the latest ...Missing: SCIE | Show results with:SCIE
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What's new in JCR? | Clarivate
Jun 29, 2018 · This year, we are pleased to provide even more transparency about the calculation of the Journal Impact Factor. Full JIF transparency. Full view ...
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Social Sciences Citation Index (SSCI) - Clarivate
Advance innovative research with the Social Sciences Citation Index and find publication & citation data from the most influential social sciences journals.Strengthen Research On... · Research With Confidence... · Meticulously Indexed
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Arts and Humanities Citation Index (AHCI) - Clarivate
Explore the arts and humanities citation index to locate papers outside of your field that are relevant to your project with unmatched accuracy. Read more.
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BIOSIS Citation Index & Databases | Clarivate
BIOSIS databases offer comprehensive life sciences research, with rich indexing by scientists, and broad coverage across all subject areas.
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WoS Conference Proceedings Citation Index - Clarivate
Monitor the influence of research presented at conferences with the Web of Science Conference Proceedings Citation Index. Find out more.Missing: addition | Show results with:addition
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The importance of Conference Proceedings | Clarivate
Oct 6, 2023 · Use cited reference searching to see the full impact of conferences and other professional meetings; Track the influence of papers, authors, and ...
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WoS Emerging Sources Citation Index (ESCI) - Clarivate
Emerging Sources Citation Index is a multidisciplinary journal edition in the world's most trusted citation index – the Web of Science Core Collection.Missing: history milestones
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Emerging Sources Citation Index - Expand your view of the global ...
Mar 26, 2024 · In 2015, Clarivate launched the Emerging Sources Citation Index (ESCI), which extended the universe of publications in Web of Science™ Core ...
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Conference proceedings citation index evaluation process and ...
Clarivate uses 26 criteria, including timeliness, editorial rigor, and best practices, to evaluate conference proceedings for CPCI. Each volume is evaluated ...
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Journal Citation Reports: Proceedings Papers and Impact Factors
Jun 27, 2018 · Journal Citation Reports does not contain Impact Factor data for conference proceedings. Clarivate Analytics does not produce impact metrics for conference ...
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Web of Science Researcher Profile Metrics
Jul 10, 2025 · The 21,000+ journals indexed are hand-selected and evaluated by expert editors. These citation counts are displayed per-publication and used for ...