| [1] |
Safety Education Planning Committee, Tokyo University of Science (Eds.). 2012. Safety Science Guide for Research - All you need to know. Tokyo, Japan: Asakura Publishing |
| [2] |
Kagakudojin editorial office (Eds.) 2021. A collection of failure cases to safely conduct experiments one after another. Kyoto, Japan: Kagakudojin Publishing |
| [3] |
Hatanaka N. 2006. Talk about the Industrial Safety and Health Act. Revised edition. Tokyo, Japan: Central Industrial Accident Prevention Association |
| [4] |
Chemical Society of Japan (Eds.). 2006. Experimental Chemistry Course 30 Safety Management of Chemical Substances. 5th Edition. Kyoto, Japan: Maruzen |
| [5] |
Mizuno K, Ueki K, Akitsu T. 2018. Case studies on predictability in university chemistry experiment accidents. Fire Science and Technology 37(1):1−16 doi: 10.3210/fst.37.1 |
| [6] |
Date N, Yokosuka K, Akitsu T. 2021. Analysis of texts of fire accidents in university chemistry experiments using AI text mining. Fire Science and Technology 40(1):1−13 doi: 10.3210/fst.40.1 |
| [7] |
Kagakudojin editorial office (Eds.). 2018. A collection of failure cases to safely conduct experiments. 8th Edtion. Kyoto, Japan: Kagakudojin Publishing |
| [8] |
Watanabe T (Eds.). 2001. Basic course for chemists 6 Chemistry lab guide. Kyoto, Japan: Asakura Publishing |
| [9] |
Kagakudojin Editorial Office (Eds.). 2018. Continued to conduct experiments safely: Basic operations/basic measurements. 4th Edition. Kyoto, Japan: Kagakudojin Publishing |
| [10] |
Japanese Society of Fire Engineers (Eds.). 2018. Fire Handbook. 4th Edition. Kyoto, Japan: Kyoritsu Publishing |
| [11] |
Yamauchi S, Aoki S, Mizuno M, Akitsu T. 2021. Risk of fire and health hazards due to organic solvents in chemical laboratories. Fire Science and Technology 40(1):15−24 doi: 10.3210/fst.40.15 |