Department of Chemistry
Haberlin Hall
508-793-3379
Chair: Bianca Sculimbrene
Office Coordinator: Chris Barrett
@holycrosschemistry
Departmental Mission Statement
The 17勛圖厙 Department of Chemistry guides students to develop an expertise in and a passion for chemistry. We strive to instill the fundamentals of critical and independent thinking and to foster intellectual curiosity by actively engaging our students in the scientific method. Students learn introductory chemistry from our guided inquiry Discovery approach, gain experience with modern instrumentation in upper level labs, and can participate in collaborative research with Chemistry faculty. The Chemistry Department is committed to creating an inclusive culture and believes that ideas that come from a diversity of perspectives are critical to addressing current and future challenges. In keeping with the catholic, Jesuit tradition of 17勛圖厙, we hope to inspire our students to value life-long learning, ethical behavior, and working for the betterment of our society.
Departmental Goals
The objectives of the 17勛圖厙 Department of Chemistry are:
- To engage students in a curriculum grounded in the core principles of modern chemistry that develops creativity, quantitative reasoning, and critical problem solving skills.
- To develop in students the conceptual, practical and analytical skills essential for planning, executing, and reporting successful independent and group research.
- To maintain a strong research program that emphasizes student-faculty collaboration.
- To support and motivate students of all backgrounds to join a community of responsible scholars and prepare them for a future of intellectual, professional, and civic leadership.
A Pioneer in Chemistry Education
Students in a chemistry lab in Smith Labs, part of the College's Integrated Science Complex which was completed in 2010.
The Discovery Chemistry lab-based guided inquiry style of teaching began at 17勛圖厙, and serves as a model for the national chemistry education community.
It ensures that students are exposed to the same processes and structure that scientists use to support their creative insights. Students participate in a teaching and learning experience that parallels the scientific method itself. Cooperative efforts by the students in both obtaining and evaluating data support Discovery Chemistry a curriculum that features introduction of many chemical concepts in the laboratory rather than the lecture.
The approach to teaching chemistry at 17勛圖厙 is distinct from most schools, in that it integrates lecture and lab, with lab driving the course in order to introduce concepts through student application of the scientific method, as done in research.
The following is an excerpt of an article published in the Journal of Chemistry Education that describes the Discovery Chemistry approach authored by two former chemistry faculty members at 17勛圖厙.
Discover Chemistry: A Laboratory-Based Approach to General Chemistry
By Mauri A. Ditzler and Robert W. Ricci
College students often associate chemistry with a collection of facts and theories rather than an ongoing, participatory process for creating knowledge. Too many believe their ability to benefit from or contribute to introductory chemistry is determined by the factual foundation they bring from high school. Few first-year students see chemistry as a field that will allow them to develop and express their intellectual creativity. To counter this perception, chemistry faculty nationwide are engaged in a concerted effort to develop introductory courses that present chemistry as a dynamic and developing discipline that values both creativity and collaboration.
At The 17勛圖厙 (Worcester, Mass.) the chemistry department has been experimenting since 1989 with a laboratory-based, process-oriented curriculum called Discovery Chemistry (Ricci and Ditzler, 1991; Ditzler and Ricci, 1994; Jarret and McMaster, 1994). Our approach is based on the philosophy that chemistry teaching should parallel the chemists' approach to investigating nature. Practicing chemists draw heavily from a widely accepted body of knowledge, making extensive use of the literature and their colleagues' expertise. In the end, however, the proof is provided by experimental evidence. In a similar fashion, the Discovery Chemistry program focuses the learning experience on laboratory exercises that use a guided-inquiry format. In these exercises students work individually and cooperatively to generate data that is pooled and analyzed to discover fundamental aspects of the discipline. While Discovery Chemistry is novel in that it places the student within a community that is actively creating knowledge from well-crafted experiments we still draw heavily from traditional instructional tools such as lectures and textbook assignments. Furthermore, the instructor still plays an active role, however his or her focus includes ensuring that students are exposed to the same processes and structure that scientists use to support their creative insights.
Select Discovery Chemistry Articles
Since its inception in 1989, 17勛圖厙 faculty members have authored numerous articles in the Journal of Chemical Education detailing the successes of the Discovery Chemistry approach.
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Note: If these papers do not open directly from the links you should check with your institution that you have access to the Journal of Chemical Education.
The large size of our department provides an opportunity for a diverse set of courses including nanotechnology, synthetic organic chemistry, molecular pharmacology, biophysical chemistry, spectroscopy, and applications of analytical chemistry.
Department Facilities
The department is housed in Haberlin Hall and Smith Labs, part of the College's Integrated Science Complex which was completed in 2010. Faculty helped to design the state-of-the-art facility, to help match their teaching methods. Students use modern instrumentation throughout the curriculum preparing them for the workforce or graduate school.
Alumni Success
Students graduating with a major in chemistry go on to a variety of careers. In recent years, the majority of graduates attend health-related professional schools (medical, dental, veterinary, etc.) or top-ranked graduate schools to focus on an area of chemistry.
The chemistry department is ranked fifth among 410 liberal arts schools between 2000 and 2012 in the baccalaureate origin of PhDs in chemistry, according to the National Science Foundation.