        TY  - JOUR
T1  - 21. Yüzyıl Kimya Laboratuvarında Güvenlik Paradigması: Proaktif Stratejiler, Dijital Dönüşüm ve İnsan Odaklı Yaklaşımlar
TT  - Safety Paradigm in 21st Century Chemistry Laboratories: Proactive Strategies, Digital Transformation, and Human-Centered Approaches
AU  - Budak, Yakup
AU  - Gürdere, Meliha Burcu
AU  - Ceylan, Mustafa
PY  - 2025
DA  - November
Y2  - 2025
JF  - Gaziosmanpaşa Bilimsel Araştırma Dergisi
JO  - GBAD
PB  - Tokat Gaziosmanpasa University
WT  - DergiPark
SN  - 2146-8168
SP  - 16
EP  - 33
VL  - 14
IS  - 2
LA  - tr
AB  - Bu derleme, 21. yüzyıl kimya laboratuvarlarında iş sağlığı ve güvenliği (İSG) alanındaki paradigma değişimini ele almaktadır. Geleneksel reaktif yaklaşımların yerini alan proaktif stratejiler, dijital dönüşümün getirdiği yenilikler ve insan odaklı güvenlik kültürü uygulamaları merkeze alınmıştır. Makale, nanomalzemeler gibi yeni nesil tehlikelerden başlayarak, risk yönetimindeki evrimi, otomasyon ve akıllı laboratuvar teknolojilerini, giyilebilir sensörleri, yapay zeka destekli öngörücü güvenlik sistemlerini ve sanal/artırılmış gerçeklik tabanlı eğitimleri detaylı bir şekilde incelemektedir. Özellikle kimya öğrencilerinin ve genç araştırmacıların İSG bilincinin artırılması, müfredat entegrasyonu, insan faktörleri ve davranışsal güvenlik konuları vurgulanmaktadır. İSG&#039;nin yeşil kimya ve sürdürülebilirlik prensipleriyle kesişimi, gelecekteki araştırma yönelimleri, teknolojik atılımlar ve politika önerileri de sunulmaktadır. Derleme, geleceğin kimyagerlerine güvenlik elçileri ve değişim liderleri olmaları yönünde bir çağrı yaparak, İSG alanındaki potansiyel kariyer fırsatlarına dikkat çekmektedir. Temel argüman, güçlü bir İSG çerçevesinin bilimsel inovasyonun temel bir katalizörü olduğu ve en güvenli laboratuvarın bilinçli, sorgulayan ve güvenliği bir yaşam biçimi olarak benimsemiş bireylerle mümkün olacağıdır.
KW  - Laboratuvar Güvenliği
KW  - Risk Yönetimi
KW  - Kimya Eğitimi
KW  - Akıllı Laboratuvar
KW  - Güvenlik Kültürü
KW  - Proaktif Güvenlik
KW  - Dijital Dönüşüm
KW  - İnsan Faktörleri
N2  - This review addresses the paradigm shift in occupational health and safety (OHS) in 21st-century chemistry laboratories. Proactive strategies, innovations brought by digital transformation, and human-centered safety culture practices have replaced traditional reactive approaches. The article provides a detailed examination of the evolution of risk management, automation, innovative laboratory technologies, wearable sensors, AI-supported predictive safety systems, and virtual/augmented reality-based training, starting with new-generation hazards such as nanomaterials. Particular emphasis is placed on raising OSH awareness among chemistry students and young researchers, curriculum integration, human factors, and behavioral safety issues. The intersection of OSH with green chemistry and sustainability principles, future research directions, technological advances, and policy recommendations is also presented. The review calls on future chemists to become safety ambassadors and change leaders, highlighting potential career opportunities in the field of OSH. The central argument is that a strong OSH framework is a fundamental catalyst for scientific innovation. The safest laboratory is one where individuals are conscious, inquisitive, and have adopted safety as a way of life.
CR  - Adadi, A., &amp; Berrada, M. (2018). Peeking Inside the Black-Box: A Survey on Explainable Artificial Intelligence (XAI). IEEE Access, 6, 52138-52160. https://doi.org/10.1109/ACCESS.2018.2870079
CR  - Ahamad, M. R., Kushwaha, K. P. S., &amp; Kundu, S. (2022). Systematic Literature Review on Variables Impacting Organization’s Zero Accident Vision (ZAV) Implementation. Sustainability, 14(13), 7523. MDPI. https://www.mdpi.com/2071-1050/14/13/7523
CR  - American Chemical Society, Committee on Chemical Safety. (2023). Safety in Academic Chemistry Laboratories (9th ed.). ACS. https://www.acs.org
CR  - Anastas, P. T., &amp; Warner, J. C. (1998). Green Chemistry: Theory and Practice. Oxford University Press.
CR  - Bogue, R. (2012). Robots in the laboratory: a review of applications. Industrial Robot, 39(2), 113-119. https://doi.org/10.1108/01439911211203382
CR  - Burange, A. S., Osman, S. M., &amp; Luque, R. (2023). The future of MXenes. Chemistry of Materials, 35(35), 8767-8770. https://doi.org/10.1021/acs.chemmater.3c02491
CR  - Chemical Safety Board (CSB). (2011). Texas Tech University Chemistry Lab Explosion (Case Study No. 2010-05-I-TX). U.S. Chemical Safety and Hazard Investigation Board. https://www.csb.gov/
CR  - Cooper, M. D. (2000). Towards a model of safety culture. Safety Science, 36(2), 111-136. https://doi.org/10.1016/S0925-7535(00)00035-7
CR  - Deng, S., Li, C., Cao, J., Cui, Z., Du, J., Fu, Z., Yang, H., &amp; Chen, P. (2023). Organ-on-a-chip meets artificial intelligence in drug evaluation. Theranostics, 13(13), 4526-4558. https://doi.org/10.7150/thno.87266
CR  - ECHA (European Chemicals Agency). (2023). Guidance on Information Requirements and Chemical Safety Assessment - Chapter R.7a: Endpoint specific guidance (Version 7.0). European Chemicals Agency.
CR  - European Agency for Safety and Health at Work. (2023, July 25). The role of Vision Zero and related occupational safety &amp; health strategies, interventions, and tools in reducing EU work related fatalities, accidents and ill health. OSHwiki. https://oshwiki.osha.europa.eu/en/themes/role-vision-zero-and-related-occupational-safety-health-strategies-interventions-and-tools
CR  - Flin, R., Mearns, K., O&#039;Connor, P., &amp; Bryden, R. (2000). Measuring safety climate: identifying the common features. Safety Science, 34(1-3), 177-192. https://doi.org/10.1016/S0925-7535(00)00037-3
CR  - Guthrie, S., Lichten, C. A., van Belle, J., Ball, S., Knack, A., &amp; Hofman, J. (2018). Understanding mental health in the research environment: A Rapid Evidence Assessment. RAND Corporation. https://doi.org/10.7249/RR2022
CR  - Hou, W., Zhang, Y., Huang, F., Xu, H., et al. (2024). Nanomole-scale medical chemistry and bioconjugation-compatible bioinspired selenium–nitrogen exchange (SeNEx) click chemistry. Angewandte Chemie, 136(15). https://doi.org/10.1002/ange.202318534
CR  - Ismael, M., McCall, R., McGee, F., Belkacem, I., Stefas, M., Baixauli, J., &amp; Arl, D. (2024). Acceptance of augmented reality in laboratory safety training: Methodology and an evaluation study. Frontiers in Virtual Reality, 5. https://doi.org/10.3389/frvir.2024.1322543
CR  - Jin, X., Zhang, H., &amp; Wang, X. (2025). Kimyasal İlgili Akademik Laboratuvarların Emniyet ve Güvenlik Risk Yönetimindeki Önyargılar. Laboratories, 2(2), 11. https://doi.org/10.3390/laboratories2020011
CR  - Kemsley, J. (2015). Learning from UCLA. Chemical &amp; Engineering News, 93(6), 29-34. https://doi.org/10.1021/cen-09306-cover
CR  - Kümmerer, K., &amp; Clark, J. H. (2020). Sustainability and circular economy in the chemistry curriculum. Green Chemistry, 22(18), 5917-5920. https://doi.org/10.1126/science.aba4979
CR  - Lee, S., Kim, J., Kim, D., Lee, G., et al. (2024). Wearable volatile organic compound sensors for plant health monitoring. Advanced Sustainable Systems.
CR  - Maheronnaghsh, S., Zolfagharnasab, H., Gorgich, M., &amp; Duarte, J. (2023). Machine learning in occupational safety and health: A systematic review. International Journal of Occupational and Environmental Safety, 7(1), 14-32. https://doi.org/10.24840/2184-0954_007-001_001586
CR  - Mittelstadt, B. D., Allo, P., Taddeo, M., Wachter, S., &amp; Floridi, L. (2016). The ethics of algorithms: Mapping the debate. Big Data &amp; Society, 3(2), 2053951716679679. https://doi.org/10.1177/2053951716666516
CR  - Mould, R. F. (1993). A century of X-rays and radioactivity in medicine: With emphasis on photographic records of the early years (1st ed.). CRC Press. https://doi.org/10.1201/9781315136271
CR  - Mughal, B. (2023, October 1). Zero Accidents: 10 Steps To Achieve This Goal At Workplace. HSE Blog. https://www.hseblog.com/zero-accidents/
CR  - National Research Council, Committee on Prudent Practices in the Laboratory. (2014). Safe science: Promoting a culture of safety in academic chemical research. The National Academies Press. https://doi.org/10.17226/18874
CR  - Nyström, A. M., &amp; Fadeel, B. (2012). Safety assessment of nanomaterials: Implications for nanomedicine. Journal of Controlled Release, 161(2), 403-408. https://doi.org/10.1016/j.jconrel.2012.01.027
CR  - Reason, J. (2000). Human error: models and management. BMJ, 320(7237), 768-770. https://doi.org/10.1136/bmj.320.7237.768
CR  - Safety Partners, Inc. (2025). Incidents, Accidents, and Near Misses in Laboratory Research (Vol. 9). Safety Partners, Inc. https://www.safetypartnersinc.com/wp-content/uploads/2025/01/IANM_Publication_Vol_9_DIGITAL.pdf
CR  - Wang, W., Su, Y., Cao, H., &amp; Li, D. (2025). Enhancing Chemical Laboratory Safety with Hazards Risks Mitigation and Strategic Actions. Laboratories, 2(1), 5. https://doi.org/10.3390/laboratories2010005
CR  - Zwetsloot, G., Kines, P., Ruotsala, R., Drupsteen, L., &amp; Bezemer, R. (2017). Zero Accident Vision based strategies in organisations: Innovative perspectives. NIVA. https://niva.org/app/uploads/Zwetsloot_Kines-et-al-Vision-Zero-Perspectives-SafSci2017.pdf
UR  - https://dergipark.org.tr/en/pub/gbad/issue//1700247
L1  - https://dergipark.org.tr/en/download/article-file/4874425
ER  -