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Being safe and productive in this modern world

  • Richard Hartshorn <richard.hartshorn@canterbury.ac.nz> has been involved in IUPAC since the late 1990s, initially with the Inorganic Chemistry Division and then with the Chemical Nomenclature and Structure Representation Division (as President in 2010-2013). He has served as Secretary General since January 2016.

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Published/Copyright: October 1, 2020
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Chemistry International
From the journal Chemistry International Volume 42 Issue 4

Abstract

I think it is fair to say that 2020 is a year when personal safety is something of a preoccupation. The Covid-19 pandemic is currently ravaging the world, and it seems inescapable that by the time this article goes to press there will be many thousands more deaths, and countless more infected and sick. As individuals, communities, and countries, we will rightly be focused on staying safe and reducing the chances of exposure and infection.

Staying safe, however, is something that we, as chemists, regularly think about even in more normal times, particularly in the context of chemical hazards. Our experiments and processes often involve the use of toxic or dangerous compounds, and carry the inherent risk that the reactions we are performing may produce new ones with unknown and perhaps dangerous properties. This is even before we consider the possibilities of unanticipated reactions and perhaps even some that run out of control, or occur violently, perhaps explosively.

It is standard practice for researchers to conduct risk assessments before they attempt reactions, and one element of this will typically involve examining the toxicities of the reagents, often by consulting Safety Data Sheets (SDSs), which have normally been produced according to the United Nations Globally Harmonised System of Classification and Labelling of Chemicals (GHS, http://www.unece.org/trans/danger/publi/ghs/ghs_welcome_e.html). Many countries have regulations and standards that require and use such approaches, and the harmonisation of the GHS is a vital part of making it easier for users to find and employ the information that they need. Reaction scales and conditions (e.g. temperatures and pressures) are also vital considerations during these risk assessments.

Typically there will be some kind of sign-off process for a risk assessment that a researcher has prepared. This will hopefully decrease the chances that something important to the assessment has been missed, and it provides an opportunity to discuss the degree to which the hazards that have been identified can be mitigated or, better yet, removed entirely. The key problem with this approach is that it is reliant on the collective experience of the assessor and reviewer. They need to be able to recognise situations that may be problematic and to be able to offer suggestions about how to deal with them. This is one of the reasons why chemists often share lab-nerd anecdotes that tell of bad experiences and near-misses, and serve as a form of early warning system. Unfortunately, sometimes even relatively innocuous reagents can combine to produce unexpectedly dangerous situations.

Wouldn’t it be better to have a way to share such experiences more formally and to provide a resource that can be consulted and searched as part of planning reactions and processes?

The Pistoia Alliance (https://www.pistoiaalliance.org/) has developed the Chemical Safety Library project (https://www.pistoiaalliance.org/projects/current-projects/chemical-safety-library/) to address this very issue. Anyone can contribute detail on a reaction incident or hazard to the database, which is curated by an advisory panel, and then made available to the public. Openly sharing data of this kind can only make the chemical community safer, and I encourage you and your organisations to contribute to and use this new resource.

IUPAC also undertakes projects in the area of safety, and among these, perhaps the highest profile belongs to the Safety Training Program (STP) that is run by the Committee on Chemistry and Industry (https://iupac.org/body/022-1). In these projects, STP fellowship candidates from developing countries are trained to deliver environmental, health, and safety programs to their institutions and home countries.

In the meantime, in many places around the world, the day to day safety challenges revolve around regular handwashing, physical distancing, and appropriate personal protective equipment (PPE). We have also been learning a great deal about the strengths and weaknesses of teleconferences and the challenges of rapid conversion of courses to on-line teaching modes. Much of our chemistry, be it in research labs, lab courses, or company facilities, is heavily dependent on actually being there together, so lock-downs may have been hard and possibly very unproductive for you. If that is you, you have my sympathy, and I wish you all the very best for a rapid but safe return to productivity.

Über den Autor / die Autorin

Richard Hartshorn

Richard Hartshorn <> has been involved in IUPAC since the late 1990s, initially with the Inorganic Chemistry Division and then with the Chemical Nomenclature and Structure Representation Division (as President in 2010-2013). He has served as Secretary General since January 2016.

Online erschienen: 2020-10-01
Erschienen im Druck: 2020-10-01

©2020 IUPAC & De Gruyter. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License. For more information, please visit: http://creativecommons.org/licenses/by-nc-nd/4.0/

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https://doi.org/10.1515/ci-2020-0401

Articles in the same Issue

  1. Masthead - Full issue pdf
  2. Secretary General's Column
  3. Being safe and productive in this modern world
  4. Features
  5. Ten Chemical Innovations That Will Change Our World
  6. The Minamata Convention
  7. A Path for Tracking Funded Research and Compliance
  8. PAC Natural Products: A Story Six Decades in the Making
  9. IUPAC Wire
  10. IUPAC Elections for the 2022–2023 Term
  11. IUPAC Announces the 2020 Top Ten Emerging Technologies In Chemistry
  12. 2021 IUPAC-Solvay International Award for Young Chemists—Call for applicants
  13. 2021 Distinguished Women in Chemistry or Chemical Engineering Award—Call for nominations
  14. IIUPAC Awards in Analytical Chemistry—Call for nominations
  15. UMRS Survey on the Evolution of Scientific Publishing
  16. Open Science for a Global Transformation: CODATA-coordinated submission to the UNESCO Open Science Consultation
  17. The IUPAC Periodic Table Challenge available in multi-language
  18. Emeritus Fellows
  19. CI Green is back, online
  20. Project Place
  21. Nomenclature of Sequence-Controlled Polymers
  22. ChemVoices—IYCN-IUPAC Younger Chemists Showcase
  23. Digital Representation of Units of Measure
  24. IUPAC Provisional Recommendations
  25. Structure-Based Nomenclature for Irregular Linear, Star, Comb and Brush Polymers
  26. Metrological and quality concepts in analytical chemistry
  27. Making an imPACt
  28. On the discovery of new elements (IUPAC/IUPAP Report)
  29. A concise guide to polymer nomenclature for authors of papers and reports in polymer science and technology (IUPAC Technical Report) 
  30. Interlaboratory comparison of humic substances compositional space as measured by Fourier transform ion cyclotron resonance mass spectrometry (IUPAC technical report)
  31. Structure, processing and performance of ultra-high molecular weight polyethylene (UHMWPE) (IUPAC Technical Report) (4 parts)
  32. Bookworm
  33. Women in their Element
  34. For Science, King & Country: The Life and Legacy of Henry Moseley
  35. Conference Call
  36. Young Ambassadors for Chemistry (YAC) achievements in Mongolia
  37. 21st Mendeleev Congress on General and Applied Chemistry*
  38. An elegant molecule and a celebrated polymer chemist
  39. Mark Your Calendar
  40. Index 2020
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