Promoting Science and Technology – Missions,Policies & Schemes

[27th March 2025] The Hindu Op-ed: The issue is about the ‘quality’ of India’s publications 

PYQ Relevance:

Question: “Although, India is second in the world to file patents, still only a few have been commercialized. Explain the reasons behind this less commercialization.” (UPSC 2024)

Reason: This question looks at how useful India’s intellectual work is. It focuses on patents instead of research papers but raises a similar point—whether filing many patents leads to real-world applications. Here, commercialization means using intellectual property, which also reflects the quality of India’s research output.

Mentor’s Comment: At a National Science Day event in February 2025, the Union Science Minister stated that India could surpass the U.S. in scientific publications by 2029. China leads with 8,98,949 papers, followed by the U.S. (4,57,335) and India (2,07,390). He emphasized the need for large-scale investments in education and R&D to match China’s long-term scientific growth.

Today’s editorial analyzes India’s scientific publications and compares them with developed countries like the USA and China. This analysis is useful for writing answers in GS Paper 3 (UPSC Mains)

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Let’s learn!

Why in the News?

Science officials should focus on improving the quality of India’s research publications instead of just being satisfied with the increasing number of papers.

What are the quality issues in Indian publications? 

  • High Presence in Predatory Journals: Many Indian researchers publish in low-quality or predatory journals that lack proper peer review. Example: A 2018 study found that 35% of papers in predatory journals came from India, reducing credibility.
  • Low Citation Impact: Indian research papers often have fewer citations, indicating limited global influence and impact. Example: While China contributes heavily to high-impact journals like Nature and Science, India lags in such publications.
  • Plagiarism & Research Misconduct: Cases of plagiarism, data fabrication, and duplicate publications undermine research integrity. Example: In 2019, over 1,000 Indian research papers were retracted due to ethical violations.
  • Weak Industry-Academia Linkages: Research often lacks practical applications, with minimal collaboration between academia and industry. Example: Unlike China, where AI and 5G research directly benefit Huawei and Tencent, India’s industry-research link is weak.
  • Limited Breakthrough Research in Frontier Technologies: India lags in deep-tech areas like AI, quantum computing, and biotechnology due to inadequate funding and infrastructure. Example: While Google (USA) and Alibaba (China) lead in quantum computing, India mostly imports technology.

What are the key factors contributing to China’s dominance in scientific research output compared to India?

Key Factor China’s Strength Example
Heavy Investment in R&D 2.4% of GDP spent on R&D, significantly higher than India’s 0.67% Medium-to-Long-Term Plan (2006-2020) led to advancements in AI, biotechnology, and materials science.
Strong University and Institutional Support Massive government funding and autonomy for research institutions Tsinghua University, Peking University, and CAS contribute thousands of high-impact research papers annually.
Focus on High-Quality Publications Researchers publish extensively in top journals like Nature, Science, and JACS CAS alone contributed 444 papers in JACS (2017–2024), while all CSIR labs in India contributed only 29.
Strategic Talent Development and Global Collaboration Attracts global talent and fosters domestic researchers through international partnerships Thousand Talents Plan recruited top global scientists, boosting innovation.
Industry-Academia Linkages and Patent Filing Strong collaboration between research institutions and industries, leading to high patent filings China dominates AI, quantum computing, and 5G, with companies like Huawei, Baidu, and Tencent integrating research into industry applications.

How does India’s research spending compare to other advanced nations, and what are the effects?

  • Low R&D Expenditure as % of GDP: India spends ~0.67% of GDP on R&D, significantly lower than USA (3.4%), China (2.4%), Germany (3.1%), South Korea (4.8%), and Israel (5.6%). This leads to slower technological advancements and reduced global competitiveness. Example: India lags behind in semiconductor manufacturing, relying on imports instead of domestic production like China, Taiwan, and the US.
  • Dominance of Government Funding: Government funds ~56% of R&D in India, whereas in advanced nations, private sector contributes 70-80%. The limited commercialization of research and weaker industry-academia collaboration hinder innovation.Example: ISRO’s space research is globally recognized, but private sector participation in space technology is still nascent compared to SpaceX (USA) or CASC (China).
  • Lower Patent Filings & Innovation Output: India’s patent filings are much lower than leading economies. In 2023, India filed ~58,502 patents, whereas China filed 1.58 million. The slow innovation cycle increases reliance on foreign technologies. Example: China dominates 5G patents (~40%), while India relies on foreign telecom firms like Nokia and Ericsson for 5G deployment.
  • Brain Drain and Researcher Exodus: Indian researchers often migrate abroad due to limited funding, better salaries, and superior research infrastructure. The talent loss weakens India’s domestic research ecosystem. Example: Many IIT and IISc graduates move to the US, UK, or Europe for research positions in top institutions like MIT, Stanford, or Oxford.
  • Limited Breakthroughs in Deep-Tech & Frontier Research: India has limited presence in deep-tech areas like AI, quantum computing, and biotechnology, where the US, China, and EU invest heavily. Dependence on foreign companies for cutting-edge technology continues to grow. Example: India imports most quantum computing hardware, while Google (US) and Alibaba (China) lead the sector.

What are the major ethical concerns in Indian research, and where does India stand in research integrity?

  • Plagiarism & Research Misconduct: Cases of plagiarism, data fabrication, and duplicate publications are prevalent in Indian academia. Weak enforcement of ethical guidelines leads to compromised research integrity. Example: In 2019, a major controversy arose when over 1,000 Indian research papers were retracted due to ethical violations.
  • Predatory Journals & Substandard Publications: Many Indian researchers publish in low-quality or predatory journals due to pressure for academic promotions. This dilutes the credibility of Indian research on the global stage. Example: A 2018 study found that over 35% of papers in predatory journals were from India, raising concerns about academic standards.
  • Lack of Strong Ethical Oversight & Whistleblower Protection: Institutional Ethics Committees (IECs) often lack independence and fail to take strict action against misconduct. Whistleblowers face retaliation, discouraging the reporting of unethical practices. Example: In cases like the AIIMS ethics review controversies, concerns were raised over conflicts of interest and leniency towards fraudulent research.

What are the steps taken by the Indian government? 

  • Increased R&D Funding & Policy Initiatives: The government has launched schemes like National Research Foundation (NRF) with a ₹50,000 crore corpus to boost R&D across sectors. Atal Innovation Mission (AIM) promotes startups, research incubation, and industry-academia collaboration. Example: IMPRINT (Impacting Research Innovation and Technology) supports research in key areas like healthcare, AI, and advanced materials.
  • Strengthening Research Ethics & Quality Publications: UGC-CARE List was introduced to ensure publication in quality journals and curb predatory publishing. Draft National Policy on Research and Development (2023) aims to streamline ethical research guidelines. Example: AIIMS and IITs have implemented stricter plagiarism checks and ethical review mechanisms.
  • Boosting Deep-Tech & Patent Ecosystem: The National Quantum Mission (NQM) aims to position India as a global leader in quantum computing and communication. Simplified patent filing processes and incentives under Start-up India & Make in India encourage innovation. Example: India’s patent filing growth (58,502 in 2023), with initiatives like Mission on Cyber-Physical Systems (CPS) to develop AI, robotics, and IoT.

Way forward: 

  • Increase R&D Investment & Industry Collaboration: Raise India’s R&D spending to at least 2% of GDP, with a greater role for private sector funding. Strengthen industry-academia linkages to boost innovation and commercialization, similar to China’s model.
  • Enhance Research Integrity & Quality Standards: Implement stricter regulations to curb plagiarism, predatory publishing, and unethical practices. Strengthen peer review mechanisms, independent ethics committees, and whistleblower protections to uphold research credibility.

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