MESSAGE FROM THE PRESIDENT - C&EN Global Enterprise (ACS

Jan 2, 2006 - A YEAR HAS PASSED SINCE I CHOSE "ENSURING the Future: ACS and the Chemical Enterprise" as the theme for my presidential year. I selected...
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MESSAGE FROM THE PRESIDENT

ENSURING THE FUTURE: ACS and the CHEMICAL ENTERPRISE Ε. ANN NALLEY, ACS PRESIDENT

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YEAR HAS PASSED S I N C E I C H O S E " E N S U R I N G

the Future: ACS and the Chemical Enterprise" as the theme for my presidential year. I selected this theme to build on "Chemistry Enterprise 2015," a project undertaken in 2005 by Presi­ dent William F. Carroll to understand the vectors driving the chemistry enterprise today and how the enterprise will change in the next 10 years. This choice seemed to be the logical next step. If we accept the project's predictions, how can we ensure that we continue on the right course for the future? And if we do not accept them, then what are the 2

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next steps? While we cannot change the past, we can learn from it. And we are cre­ ating our future! Although I would like to say that I can set the American Chemical Society and the chemical enterprise on a course toward a positive future, I am not naïve enough to believe that the whole chemical enterprise can be changed in one year. Therefore, I have three focal points for action and activities this year. COMMUNICATING THE VALUE AND RELATIONSHIP OF BASIC AND APPLIED

RESEARCH. W h y is it important to communicate the value of basic and applied research, and to whom should we communicate it? The world today is very different from the world of only 10 or 15 years ago. Advances in science and engineering and WWW.CEN-0NLINE.ORG

technological change that lead to innovation are the driving forces of the economy. We recognize that the capacity to create and use new knowledge is the key to our future prosperity. Innovation is the result of basic research. In the past 25 years, we have seen a decreased emphasis on the part of industry to conduct basic research. Industry is driven by the need for rapid turnaround and profit margins. It falls to the university research system to conduct the basic research while engendering in its students the skills for fostering the capacity to conduct research, risk taking, imagination, and a tolerance for unfamiliar and uncertain territory. Decisions to fund basic research are often made at the polls and not with regard to need. In the last U.S. presidential race, both candidates indicated they strongly endorsed federal support for basic research. Both recognized the critical role basic research fills in sustaining the U.S. economy. Election of either candidate was a win-win situation. There are only so many federal dollars, however, and public sentiment drives the federal budget. The war in Iraq and the devastating effects of Hurricanes Katrina and Rita will place severe limits on funding allocations for basic research. It becomes increasingly important for scientists to communicate to the public and to our legislators the value of basic research and the role it plays in connecting directly to practical inventions for maintaining economic leadership, creating good jobs, improving health, and protecting the environment while meeting our energy needs. We need to quadruple the number of ACS members who belong to our Legislative Action Network (LAN), and all ACS members must become spokespersons for communicating the value of basic research. In 1997,1 organized a symposium for the spring national meeting in San Francisco entitled, "Doing More with Less: Educating Future Professionals in Chemistry." The symposium explored the role of university research in educating future professionals in chemistry and the declining federal support for basic research. Symposium speakers concluded that the cost of conducting research in university settings was rapidly increasing and that federal support was not keeping pace with the escalating costs either of sophisticated instrumentation and chemi-

sional development workshops were begun and were federally supported until the late 1990s. Senior scientists, mathematicians, and engineers worked with teachers and other educators in this reform. Reports in the late 1970s stated that the reformed curricular programs had broad impact: New programs were being used extensively, and commercial textbooks incorporated new approaches to teaching EMPHASIZING THE IMPORTANCE OF GOOD science. In the academic year 1976-77, for example, almost 60% of school districts SCIENCE AND MATHEMATICS EDUCAreported using at least one program in elTION AT ALL LEVELS. T h e ACS Strategic Plan has three key components: science, ementary schools. Reviews of the effects of the public, and the professional. If I could reformed science curricula on student perdesign a logo for the plan, I would draw a formance indicated that the programs were circle labeled chemical education with three successful. Achievement scores on science triangles—science, public, and profession- exams conducted in the Sputnik era were al—extendingfromit. Chemical education higher than the scores of students who had is central to all three. A good educational studied the traditional curricula. systemfromkindergarten through graduate A recent National Academy of Sciences school is crucial for good science. An out- report, "Rising Above the Gathering Storm: standing chemical education system—one Energizing and Employing America for a that starts with educating future citizens Brighter Economic Future" (available onand goes beyond the classroom—is essential line at books.nap.edu/catalog/11463.html), for an educated public, who are central to concludes that we have a rapidly growing funding US. scientific research and techno- crisis in science education as well as suplogical development. Last, but certainly not port for basic research. This congressionally least, the chemical professional relies heavily requested report—written by a 20-memon an outstanding educational system. The ber committee that includes university heart of chemical education is the teacher, presidents, chief executive officers, Nobel professor, and researcher. Prize winners, and former presidential apGood science education beginning at pointees—lists 20 indicators of decisive acthe elementary level not only will plant the tion needed to conserve the U.S.'s position seed for future scientists and engineers but of economic and scientific preeminence. also play a key role in educating the general Some of the indicators regarding education public on the value of federal support for are very disturbing: Less than one-third of U.S. fourth- and basic research and science education. This country cannot afford to wait for another eighth-grade students performed at or Sputnik to shock the average citizen and our above a level called "proficient" in mathgovernment into believing that our country ematics. "Proficiency" was considered is in a technology battle with other nations. the ability to exhibit competence with The only way we can win is to place greater challenging subject matter. Alarmingly, emphasis on the need for funding technical about one-third of the fourth-graders and and scientific educational programs as well one-fifth of the eighth-graders lacked the competence to perform basic mathematias basic research. As a result of Sputnik and public pressure cal computations. U.S. twelfth-graders recently performed for education reform in the 1950s, federal programs were set up to recruit high school below the international average for 21 counstudents to become science and engineering tries on a test ofgeneral knowledge in mathmajors, to train and retrain more science ematics and science. In 1999, only 41% of U.S. eighth-grade teachers, and to develop and introduce innovative ways of teaching science and students received instruction from a mathmathematics. Out of this education reform ematics teacher who specialized in mathwere born groups that specialized in the de- ematics, considerably lower than the intervelopment of educational materials. Profes- national average of 71%. cals or of support for graduate students and postdocs to conduct the research. Unfortunately, this situation has only worsened with time, and the success rate for funding federally supported research proposals averages only about 11%. Unless federal funding keeps pace with rising costs of conducting basic research, the U.S. will not continue to lead the world in innovation.

It becomes increasingly important for scientists to communicate to the public and to our legislators the value of basic research. WWW.CEN-0NLINE.ORG

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MESSAGE FROM THE PRESIDENT In Germany, 36% of undergraduates receive their degrees in science and engineering. In China, the figure is 59%, and in Japan, 66%. In the U.S., the corresponding figure is 32%. In 2004, Chinagraduated about 500,000 engineers; India, 200,000; and the U.S., 70,000. These indicators alert us to the fact that not only are we are not adequately educating our students in basic science and mathematics, but this neglect is affecting their career choices for the future. The report makesfourrecommendations: • Increase America's talent pool by vastly improving K-12 mathematics and science education; • Sustain and strengthen the nation's commitment to long-term basic research; • Develop, recruit, and retain top students, scientists, and engineers from both the U.S. and abroad; • And ensure that the U.S. is the premier place in the world for innovation. We must work to support these recommendations to ensure the economic vitality of our nation. RECOGNIZING THAT THE MOST IMPORTANT ASSET ACS HAS IS ITS MEMBERS.

As important decisions are made to ensure that we operate within the society's budget, we must maintain a high quality of programs and services to ensure that the ACS membership receives top value on its investments. We must continue to identify resources to support the volunteer activities of this society. Without the volunteer services of our members,

many of the activities of ACS would not be possible. Even a partial listing of the volunteer services performed by our members is staggering: They serve as officers for local sections, divisions, and the Board of Directors; implement the outreach activities of National Chemistry Week and similar events; and act as jurors on awards committees, reviewers for publications and grant applications, and members of the many task forces and committees at the local, regional, and national levels. Volunteers also participate in LAN; organize and arrange programming for local, regional, and national meetings; and undertake the seemingly countless other volunteer activities that make ACS the strong organization it is today. I have asked staff to identify the value of volunteer services provided by our members and how this collective effort contributes to the overall value of the society. I am seeking ways to involve more members in ACS activities by strengthening our divisions and local sections—vital arms of the society The financial allotments to local sections and divisions enable them to carry out their important volunteer services. A Board-Council Policy Committee task force is studying our current governance system in an effort to improve its effectiveness and to allow for greater involvement of our members in governance operations. I am initiating a vigorous campaign to recognize the value of volunteer services to the mission and activities of the society. I will be taking every opportunity to recognize volunteers by creating new awards for volunteer service and ex-

tending to local and regional levels the recognition that our volunteer members have received nationally. I am requesting that each local section honor a member for their volunteer service and that the organizing committee for each regional meeting identify a volunteer as a recipient of a new award for volunteer service at the regional level. At all regional and national meetings during 2006, special efforts will be made to recognize, celebrate, and support volunteer service. The final reportfrom"Chemistry Enterprise 2015" is being studied, and challenges for the chemistry enterprise and ACS are being identified and will be the focus of activities of task forces and advisory groups throughout 2006. Many of these challenges are evident as we hear about the closure of manufacturing and R&D sites in the U.S. Clearly, if this continues, we will face unemployment issues for our members during the year. ACS will continually search for more effective ways to deal with challenges facing our publications areas. The ACS Membership Division will be challenged by changing trends in the perceived value of professional memberships, especially as chemists and chemical engineers redefine themselves in areas not traditionally associated with chemistry, so-called multidisciplinary fields. I welcome your input, suggestions, and advice during my presidential year. Please contact me at [email protected]. There is strength in numbers, and it will take a unified effort to chart a course for a bright future for ACS and the chemical enterprise. •

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