Chemistry for the Next Decade and Beyond: International Perceptions of the uk chemistry Research Base
H To what extent is the UK able to attract talented young scientists and engineers into chemistry research? Is there evidence that they are being nurtured and supported at every stage of their caree
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- No clearly defined path for ECRs to academic success Absence of diversity: gender, ethnic, cultural
- Recommendations H.1
- Recommendation H.3
5.H To what extent is the UK able to attract talented young scientists and engineers into chemistry research? Is there evidence that they are being nurtured and supported at every stage of their career?Summary Findings: Early Career Researchers (ECRs) suffer overall from insufficient mentoring and inadequate funding No clearly defined path for ECRs to academic success Absence of diversity: gender, ethnic, cultural Members of the Panel spoke to a large number of ECR scientists at every institution visited and, overall, found them to be a high-quality and productive group. However not surprisingly there was considerable variation in the responses relevant to the issues posed in this Framework Question. The Panel found widespread and vastly heterogeneous dissatisfaction with the plethora of fellowship and other schemes used in part to recruit ECRs in the UK. Recommendations H.1: The majority view on the Panel was that the recruiting mechanism into tenured faculty (lecturer) positions, and the treatment of ECRs in general in the UK, needs to be improved in favour of a well-defined career path. H.2: There is a lot to be said in favour of introducing a tenure track system decreasing sharply the number of post-doctoral fellows in perceived tenure-track-like situations and increasing the number of real tenure track appointments in the universities. A tenure track system would introduce a fair and effective selection of people that from the Panel’s perception does not occur at present. This could perhaps be achieved by introducing faculty positions, albeit of diverse character, with a standardised probationary period on appointment of, for example, 5 years. These probationary faculty members would be granted certain resources by the university, would be eligible to apply for research grants with the full range of resources, and would be judged for promotion to a tenured appointment based upon their productivity and the quality of their research and teaching output during the probationary period. Such tenure track appointments would be in contrast to shorter term but prestigious two- or three-year Research Fellowships. The Research Fellows, as temporary postdoctoral researchers, would be excluded from applying for research grants to support personnel and would thus become again what they were originally intended to be, namely positions where individuals could pursue their dreams and develop their own ideas without having to write grants or supervise students. Other postdoctoral positions operating under faculty supervision would remain, again with the restriction of not being eligible to seek independent research funding. 5.H.1 Are the numbers of graduates (at first and higher degree level) sufficient to maintain the UK research base in this area? Is there sufficient demand from undergraduates to become engaged in chemistry research? How does this compare with the experience in other countries? The Panel was presented with anecdotal evidence that the number of undergraduate students studying Chemistry has increased significantly over the past 5 years and that the quality of these students in terms of the standard metrics had also improved significantly. In addition there appeared to be a corresponding increase in graduate students but the Panel was unable to verify this. At one institution it was stated that 40% of the PhD graduates went directly into industrial positions, with the balance taking postdoctoral fellowships or, in limited numbers, positions outside professional chemistry. None of the many industrial representatives the Panel met with indicated that there was a shortage of chemistry graduates (at any degree level) and from the opposite perspective none of the academic presentations indicated that there was a large over production of chemistry graduates. (The student's perspective on this matter was not solicited systematically.) 5.H.2 How effective are public engagement activities aimed at attracting school age students into chemistry? Some of the visited institutions enthusiastically reported on their public outreach programmes including the invitation of large numbers of students (plus parents and grandparents) from the schools to visit the departments and even to participate in some laboratory demonstrations. The numbers of such visitors was stated to be in the thousands or higher. Particularly impressive was a presentation describing online outreach including a "You Tube" video on the periodic table of the elements that has already received greater than a million "hits" world wide. One member of the Panel stated that his daughter had shown him this several weeks ago, but without citing its origin. Such an approach to community outreach was extremely cost effective, reaching more than a thousand individuals per pound invested. Such outreach activities help to project a positive public perception of Chemistry and of the academic institutions involved, but there appears to be no obvious metric establishing the resulting effect on attracting additional school age students into the discipline. 5.H.3 Are there areas of weakness - is the UK producing a steady-stream of researchers in the required areas and/or are there areas that should be declining to reflect changes in the research climate? The Panel notes the failure of the UK universities for the most part to attract significant numbers of the very best postgraduate students from the global pool. This failure seems to be due mainly to structural problems originating in UK government regulations concerning the eligibility of international students for public support. For example, graduate student stipends and tuition payments through the DTA mechanism are largely restricted to UK citizens, with some exceptions for EU students. However, even the latter appear to face impediments and restrictions drawn from bilateral national agreements. Another concern is the emphasis on time limits for PhD students rather than requiring a PhD to be based on accomplishments. This was also discussed in the ‘Whitesides’ Review. Although in some cases changes have been introduced with the goal of extending the funding of student stipends to four years, there were reports that indicated problems with such extensions, for example, issues regarding the consistency with which these restrictions were applied. The Doctoral Training Centres (DTC) programme (with a well organised four year curriculum) address this aspect to some extent, although the dedication of the first year of a DTC appointment to more generalised training and education (including some rotation through several research laboratories) still leaves only three years for the post-graduate students to commit to their thesis research and writing. Furthermore, any programme where the timing is process driven instead of accomplishment driven may have unintended consequences on the quality of the research accomplished and the development of the students as creative research scientists. Given that there is little room for failure in a time-limited thesis project there could be a reluctance to take risks in choice of research problems. Several industrial representatives were queried regarding their view of the Chemistry PhDs they hired. Response to this question was mixed. In one case, the individual asked clearly stated that the UK students are not as well prepared or as mature as those from other EU countries, especially, the Netherlands or Germany. Other representatives did not seem to be as concerned. In a discussion with a group of industrialists, the need for PhDs that are more broadly educated was expressed. In particular, problem solving skills, mathematical skills, communication skills and judgment skills were emphasised. The Panel’s view is that the common international standard for awarding of a PhD degree is based on a marked achievement in research. This seems to run counter to the UK's practice of a PhD award after completion of a thesis in a prescribed time period of 3 to 4 years, which is short compared to that in some, but not all competitor countries. The Panel notes that a mandated (short) period likely inhibits the pursuit of adventurous, and hence risky projects, as well as the pursuit of the most challenging research at the interface of disciplines. The mandated short period also limits the student's exposure to problem solving opportunities and independent scientific growth. Recommendation H.3: PhD requirements in the UK should give more emphasis on achievement and be flexible enough to allow up to 5 years, if necessary, for completion without penalty to the individual involved. A flexible approach would not prohibit 3- or 4-year PhDs but overall would probably allow for more adventurous research. 5.H.4 How does the career structure for chemists in the UK compare internationally? In many countries, it is typical for new PhD graduates intending an academic career to immediately assume a postdoctoral research position, usually at a leading academic laboratory or national facility. For UK students this is particularly critical owing to the short duration of the PhD degree programme and a number of the ECRs interviewed had either been in one postdoctoral laboratory for a lengthy period or had held several postdoctoral appointments. Commonly, the next stage in the UK seems to be an appointment to a position as either a junior lecturer or to a highly competitive longer term (EPSRC or RS) Research Fellowship. A similar stage in Germany would have the individual in one of the new "junior professorships' or as a habilitation candidate, both temporary positions. In the US, the appointment would be as an assistant professor in a tenure track position. In both of the latter positions, considerable resources are provided by the institution: laboratory renovations and funds for equipment and supplies (typically $0.5-1M or more in the US), access to graduate students supported by teaching assistantships, released time from teaching, etc. By comparison, the institutional support of ECR scientists in the UK is dramatically less, although it is quite variable. It appears that some institutions give very little, while others are more generous, providing access to one or more students and support for supplies and equipment, although nowhere near the levels seen in the US. Of even more concern to the Panel is the range of different appointments given the various flavours of fellowships (spanning 2-10 years), some of which come with considerably more support than others. The strength of the UK system is that these ECR fellows have considerable freedom to pursue the research directions of their choice. However, a weakness is that the overwhelming majority of research fellows seemed to imagine they were effectively in tenure track situations, which for the most part was evidently not the case; it is a further weakness that the funding structure for ECRs in these positions discourages them from tackling high risk projects.
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