Posts Tagged ‘Education’

The Chemistry Department at Imperial College London. A history, 1845-2000.

Friday, February 10th, 2017

The book of the title has recently appeared giving a rich and detailed view over 417 pages, four appendices and 24 pages of photographs of how a university chemistry department in the UK came into being in 1845 and its subsequent history of discoveries, Nobel prizes and much more. If you have ever wondered what goes on in an academic department, populated by and large by very bright and clever personalities and occasionally some highly eccentric ones, then go dip into this book.

Here you will learn that starting in 1845, the department had 26 enrolled students, each paying a fee to attend lectures and to do experiments in the laboratories. You may observe the changes in laboratory practices over the years, and wonder how many of those early students survived their experiences and lived into old age. The book centres around the people in the department, with many anecdotes and stories about life in such a department, some of the stories about chemistry and some not! The chemistry these people discovered and recorded in journals can be quickly accessed using the (short) DOIs provided for many of the entries in the bibliography.

Few academic departments can have been documented in such detail. Indeed one must wonder whether the wealth of written material available to the authors, Hannah Gay and Bill Griffith, during this period will be matched by the much more evanescent electronic records that have become prevalent since. Email was introduced into the department around 1987 and I suspect almost all that record has now vanished permanently. I would not envy the task of anyone faced with updating this history from 2001-2050! 

An aspect that is much harder to document is the daily routines of the undergraduate students. The book has a wealth of information about the practical laboratories and the instruments and apparatus found in the department, but a little less about the changing face of the lectures and associated written materials, the tutorials and problems classes and student’s own interactions with the professors, once the core (academic) activities and experiences of an undergraduate. Nowadays one may well find sessions on entrepreneurship instead of a problems class, or a flipped classroom replacing the lecture.

My own undergraduate stay in the department was from 1968-1971 and I might append some of those memories to this post in the future. If anyone reading this has their own evocative recollections of being a chemistry undergraduate, either at Imperial or elsewhere, can I invite you to share them here!

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Posted in Historical | 6 Comments »

Braiding a molecular knot with eight crossings.

Friday, January 20th, 2017

This is one of those posts of a molecule whose very structure is interesting enough to merit a picture and a 3D model. The study[1] reports a molecular knot with the remarkable number of eight crossings.

The DOI for the 3D model is 10.5517/CCDC.CSD.CC1M85Y0 (or click on the image above). Such topology intersects with work we did a few years back on high-order crossings in fully conjugated π-systems[2], which were then illustrated[3] with hypothetical charged higher order annulenes exhibiting linking numbers Lk of up to 6π. A fully π-conjugated system, also with a linking number in the π-framework of 6π but in the form of a trefoil braid was even suggested on this blog, with a common feature of a central templating atom (a cation rather than an anion). Another example of a previously reported pentadecanuclear manganese metallacycle[4] was also assigned a linking number of 6π.

The molecule above is not completely π-conjugated around the braid and so special properties related to aromaticity and associated ring currents resulting from the topology of the cyclic conjugation[5] are not expected to accrue in the eight-crossing molecular braid[1]. We might also look forward to examples of the characterisation of braids with an odd-number of crossings such as trefoils, pentafoils, heptafoils, etc, as associated with the name Möbius.

References

  1. J.J. Danon, A. Krüger, D.A. Leigh, J. Lemonnier, A.J. Stephens, I.J. Vitorica-Yrezabal, and S.L. Woltering, "Braiding a molecular knot with eight crossings", Science, vol. 355, pp. 159-162, 2017. https://doi.org/10.1126/science.aal1619
  2. S.M. Rappaport, and H.S. Rzepa, "Intrinsically Chiral Aromaticity. Rules Incorporating Linking Number, Twist, and Writhe for Higher-Twist Möbius Annulenes", Journal of the American Chemical Society, vol. 130, pp. 7613-7619, 2008. https://doi.org/10.1021/ja710438j
  3. C.S. Wannere, H.S. Rzepa, B.C. Rinderspacher, A. Paul, C.S.M. Allan, H.F. Schaefer, and P.V.R. Schleyer, "The Geometry and Electronic Topology of Higher-Order Charged Möbius Annulenes", The Journal of Physical Chemistry A, vol. 113, pp. 11619-11629, 2009. https://doi.org/10.1021/jp902176a
  4. H.S. Rzepa, "Linking Number Analysis of a Pentadecanuclear Metallamacrocycle: A Möbius-Craig System Revealed", Inorganic Chemistry, vol. 47, pp. 8932-8934, 2008. https://doi.org/10.1021/ic800987f
  5. P.L. Ayers, R.J. Boyd, P. Bultinck, M. Caffarel, R. Carbó-Dorca, M. Causá, J. Cioslowski, J. Contreras-Garcia, D.L. Cooper, P. Coppens, C. Gatti, S. Grabowsky, P. Lazzeretti, P. Macchi, . Martín Pendás, P.L. Popelier, K. Ruedenberg, H. Rzepa, A. Savin, A. Sax, W.E. Schwarz, S. Shahbazian, B. Silvi, M. Solà, and V. Tsirelson, "Six questions on topology in theoretical chemistry", Computational and Theoretical Chemistry, vol. 1053, pp. 2-16, 2015. https://doi.org/10.1016/j.comptc.2014.09.028

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Posted in Interesting chemistry | 3 Comments »

The 2015 Bradley-Mason prize for open chemistry.

Friday, June 26th, 2015

Open principles in the sciences in general and chemistry in particular are increasingly nowadays preached from funding councils down, but it can be more of a challenge to find innovative practitioners. Part of the problem perhaps is that many of the current reward systems for scientists do not always help promote openness. Jean-Claude Bradley was a young scientist who was passionately committed to practising open chemistry, even though when he started he could not have anticipated any honours for doing so. A year ago a one day meeting at Cambridge was held to celebrate his achievements, followed up with a special issue of the Journal of Cheminformatics. Peter Murray-Rust and I both contributed and following the meeting we decided to help promote Open Chemistry via an annual award to be called the Bradley-Mason prize. This would celebrate both “JC” himself and Nick Mason, who also made outstanding contributions to the cause whilst studying at Imperial College. The prize was initially to be given to an undergraduate student at Imperial, but was also extended to postgraduate students who have promoted and showcased open chemistry in their PhD researches.

Peter and I are delighted to announce the inaugural winners of this prize.

The postgraduate winner is Tom Phillips for his open blog describing his experiences as a PhD student and for leading by example. He has published his instrumental codes on Github (and now Zenodo[1]) and data and codes for reproducing the graphs in his work on the “lab on a chip” in Figshare[2] and through his blog has encouraged other research students to do the same. Tom has worked assiduously to ensure that all the articles describing his PhD work are or will be open access.[3]

The undergraduate winner is Tom Arrow for his “spare time” involvement with WikiMedia (the foundation that underpins the open Wikipedia), including participating in a Wikimedia EU hackathon in Lyon France, and feeding his experiences and skills back into his undergraduate environment as well as enhancing the teaching Wiki used by his fellow students. Tom took the lead in introducing us to Wikidata[4] for storing chemical data in an open Wikibase data repository and in promoting its use for enriching Wikipedia chemistry pages and showcasing open data in undergraduate teaching environments.

References

  1. T. Phillips, and S. Macbeth, "pumpy: Zenodo release", 2015. https://doi.org/10.5281/zenodo.19033
  2. T. Phillips, J.H. Bannock, and J.D. Mello, "Data for microscale extraction and phase separation using a porous capillary", 2015. https://doi.org/10.6084/m9.figshare.1447208
  3. T.W. Phillips, J.H. Bannock, and J.C. deMello, "Microscale extraction and phase separation using a porous capillary", Lab on a Chip, vol. 15, pp. 2960-2967, 2015. https://doi.org/10.1039/c5lc00430f
  4. D. Vrandečić, and M. Krötzsch, "Wikidata", Communications of the ACM, vol. 57, pp. 78-85, 2014. https://doi.org/10.1145/2629489

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Posted in Bradley-Mason Prize for Open Chemistry, Chemical IT | 1 Comment »