Chemists and materials scientists need at least a bachelor's degree in chemistry or a related field. However, a master's degree or Ph.D. is required for many research jobs.
Education
A bachelor's degree in chemistry or in a related field is needed for entry-level chemist or materials scientist jobs. Although some materials scientists hold a degree in materials science, most have a degree in chemistry, physics, or engineering. Many jobs require a master's degree or a Ph.D. and also may require significant levels of work experience. Chemists and materials scientists with a Ph.D. and postdoctoral experience typically lead basic- or applied-research teams.
Many colleges and universities offer degree programs in chemistry that are approved by the American Chemical Society. There are few programs specifically in materials science, but the number of programs is gradually increasing. Some colleges offer materials science as a specialization within their chemistry programs, and some engineering schools offer degrees in the joint field of materials science and engineering. High school students can prepare for college coursework by taking chemistry, math, and computer science classes.
Undergraduate chemistry majors typically are required to take courses in analytical, organic, inorganic, and physical chemistry. In addition to chemistry coursework, they take classes in mathematics, biological sciences, and physics. Computer science courses are essential, because chemists and materials scientists need computer skills to perform modeling and simulation tasks, manage and manipulate databases, and operate computerized laboratory equipment.
Laboratory experience, either at a college or university, or through internships, fellowships, or workâstudy programs in industry, is also useful.
Graduate students studying chemistry commonly specialize in a subfield, such as analytical chemistry or inorganic chemistry. For example, those interested in doing research in the pharmaceutical industry usually develop a strong background in medicinal or organic chemistry.
Important Qualities
Analytical skills. Chemists and materials scientists carry out scientific experiments and studies. They must be precise and accurate in their analyses, because errors could invalidate their research.
Communication skills. Chemists and materials scientists need to communicate with team members and other scientists. They must be able to read and write technical reports and give presentations.
Critical-thinking skills. Chemists and materials scientists carefully evaluate their own work and the work of others. They must determine if results and conclusions are based on sound science.
Interpersonal skills. Chemists and materials scientists typically work on interdisciplinary research teams and need to work well with others toward a common goal. Many serve as team leaders and must be able to motivate and direct other team members.
Math skills. Chemists and materials scientists regularly use complex mathematical equations and formulas, and they need a broad understanding of mathematics, including calculus, algebra, and statistics.
Organizational skills. Chemists and materials scientists need to document processes carefully in order to conform to regulations and industry procedures. Disorganization in the workplace can lead to legal problems, damage to equipment, and chemical spills.
Perseverance.Scientific research involves substantial trial and error, and chemists and materials scientists must not become discouraged in their work.
Problem-solving skills. Chemists and materials scientists research and develop new and improved chemical products, processes, and materials. This work requires a great deal of trial and error on the part of chemists and materials scientists before a unique solution is found.
Time-management skills. Chemists and materials scientists usually need to meet deadlines when conducting research. They must be able to manage time and prioritize tasks efficiently while maintaining their quality of work.
Advancement
Chemists typically receive greater responsibility and independence in their work as they gain experience. Greater responsibility also is gained through further education. Ph.D. chemists usually lead research teams and have control over the direction and content of projects, but even Ph.D. holders have room to advance as they gain experience. As chemists become more proficient in managing research projects, they may take on larger, more complicated, and more expensive projects.