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Job Outlook for:
Chemists and Materials Scientists

SOC: 19-2031        OOH: U099

Chemists and Materials Scientists
Quick Stats
Total Jobs in 2016 96,200
Expected Growth 7%    (As fast as average)
New Jobs To Be Added
from 2016 to 2026
6,300
Median Pay $75,000 or more

 

 


Short video describing: Chemists and Materials Scientists

 

 

Employment Outlook for Chemists and Materials Scientists

Overall employment of chemists and materials scientists is projected to grow 7 percent from 2016 to 2026, about as fast as the average for all occupations.

Employment of chemists is projected to grow 6 percent as they continue to be needed in scientific research and development (R&D) and to monitor the quality of products and processes. In pharmaceutical and medicine manufacturing, chemists will be increasingly needed to develop nanotechnology for medicinal uses. And in basic chemical manufacturing, employers will call upon chemists to use knowledge of green chemistry to improve environmental safety in the workplace and community.

Employment of materials scientists is projected to grow 7 percent as demand holds steady for cheaper, safer, and better quality materials for a variety of purposes, such as electronics, energy, and transportation.

Environmental research will offer many new opportunities for chemists and materials scientists. For example, chemical manufacturing industries will continue to develop technologies and processes that reduce pollution. Materials scientists work to reduce the environmental impact of manufacturing facilities. Chemists also will continue to be needed to monitor pollution levels at manufacturing facilities and to ensure compliance with local, state, and federal environmental regulations.

Job Prospects

In addition to job openings resulting from employment growth, some job openings will result from the need to replace chemists and materials scientists who retire or otherwise leave the occupations.

Chemists who have laboratory experience outside of a classroom environment, such as through a cooperative program or internship, are likely to meet with better employment prospects after graduation.

Chemists and materials scientists with advanced degrees, particularly those with a Ph.D. and work experience, are expected to have better opportunities. Chemists who can practice green chemistry may experience favorable job prospects because this knowledge can be valuable in reducing employers’ liabilities regarding chemical safety, by minimizing the creation of toxins and waste.

Chemists with advanced degrees will continue to fill most senior research and upper-management positions. For more information, see the profile on natural sciences managers.

 

 


 

Typical Pay for Chemists and Materials Scientists

The median annual wage for chemists was $73,740 in May 2016. The median wage is the wage at which half the workers in an occupation earned more than that amount and half earned less. The lowest 10 percent earned less than $42,180, and the highest 10 percent earned more than $129,670.

The median annual wage for materials scientists was $99,430 in May 2016. The lowest 10 percent earned less than $49,890, and the highest 10 percent earned more than $157,750.

In May 2016, the median annual wages for chemists in the top industries in which they worked were as follows:

Federal government, excluding postal service $106,160
Research and development in the physical, engineering, and life sciences 83,830
Chemical manufacturing 73,380
Administrative and support and waste management and remediation services 66,860
Testing laboratories 57,180

In May 2016, the median annual wages for materials scientists in the top industries in which they worked were as follows:

Computer and electronic product manufacturing $120,700
Management of companies and enterprises 115,590
Research and development in the physical, engineering, and life sciences 103,800
Chemical manufacturing 100,860
Architectural, engineering, and related services 77,240

Chemists and materials scientists typically work full time and keep regular hours.



 

What Chemists and Materials Scientists Do All Day

Chemists and materials scientists study substances at the atomic and molecular levels and analyze the ways in which the substances interact with one another. They use their knowledge to develop new and improved products and to test the quality of manufactured goods.

Duties

Chemists and materials scientists typically do the following:

  • Plan and carry out complex research projects, such as the development of new products and testing methods
  • Instruct scientists and technicians on proper chemical processing and testing procedures, including ingredients, mixing times, and operating temperatures
  • Prepare solutions, compounds, and reagents used in laboratory procedures
  • Analyze substances to determine their composition and concentration of elements
  • Conduct tests on materials and other substances to ensure that safety and quality standards are met
  • Write technical reports that detail methods and findings
  • Present research findings to scientists, engineers, and other colleagues

Some chemists and materials scientists work in basic research. Others work in applied research. In basic research, chemists investigate the properties, composition, and structure of matter. They also experiment with combinations of elements and the ways in which they interact. In applied research, chemists investigate possible new products and ways to improve existing ones. Chemistry research has led to the discovery and development of new and improved drugs, plastics, fertilizers, flavors, batteries, and cleaners, as well as thousands of other products.

Materials scientists study the structures and chemical properties of various materials to develop new products or enhance existing ones. They determine ways to strengthen or combine existing materials, or develop new materials for use in a variety of products. Applications of materials science include inventing or improving ceramics, plastics/polymers, metallic alloys, and superconducting materials.

Chemists and materials scientists use computers and a wide variety of sophisticated laboratory instrumentation for modeling, simulation, and experimental analysis. For example, some chemists use three-dimensional computer modeling software to study the structure and properties of complex molecules.

If a chemist specializes in green chemistry, he or she will design chemical processes and products that are environmentally sustainable. Green chemistry processes minimize the creation of toxins and waste.

Most chemists and materials scientists work as part of a team. The number of scientific research projects that involve multiple disciplines is increasing, and it is common for chemists and materials scientists to work on teams with other scientists, such as biologists, physicists, computer specialists, and engineers. For example, in pharmaceutical research, chemists may work with biologists to develop new drugs and with engineers to design ways to mass-produce the new drugs. For more information, see the profiles on biochemists and biophysicists, microbiologists, zoologists and wildlife biologists, physicists and astronomers, computer and information technology occupations, and engineering occupations.

Because chemists and materials scientists typically work on research teams, they need to be able to work well with others toward a common goal. Many serve in a leadership capacity and need to be able to motivate and direct other team members.

Chemists often specialize in a particular branch of the field. The following are examples of types of chemists:

Analytical chemists determine the structure, composition, and nature of substances by examining and identifying their various elements or compounds. They also study the relationships and interactions among the parts of compounds. Some analytical chemists specialize in developing new methods of analysis and new techniques for carrying out their work. Their research has a wide range of applications, including food safety, pharmaceuticals, and pollution control.

Forensic chemists analyze evidence for clues to help solve crimes. These chemists aid in criminal investigations by testing evidence, such as DNA, and interpreting their findings. Not only is human DNA evidence tested; DNA evidence can be used to exonerate animals suspected of having killed people or other animals. These chemists work primarily in laboratories, though they sometimes testify in court.

Inorganic chemists study the structure, properties, and reactions of molecules that do not contain carbon, such as metals. They work to understand the behavior and the characteristics of inorganic substances. Inorganic chemists figure out how these materials, such as ceramics and superconductors, can be modified, separated, or used in products.

Medicinal chemists research and develop chemical compounds that can be used as pharmaceutical drugs. They work on teams with other scientists and engineers to create and test new drug products. They also help develop new and improved manufacturing processes to effectively produce new drugs on a large scale.

Organic chemists study the structure, properties, and reactions of molecules that contain carbon. They also design and make new organic substances that have unique properties and applications. These compounds, in turn, have been used to develop many commercial products, such as pharmaceutical drugs and plastics.

Physical chemists study the fundamental characteristics of how matter behaves on a molecular and atomic level and how chemical reactions occur. From their analyses, physical chemists may develop new theories, such as how complex structures are formed. Physical chemists often work closely with materials scientists, to research and develop potential uses for new materials.

Theoretical chemists investigate theoretical methods that can predict the outcomes of chemical experiments. Theoretical chemistry encompasses a variety of specializations, although most specializations incorporate advanced computation and programming. Some examples of theoretical chemists are computational chemists, mathematical chemists, and chemical informaticians.

Materials scientists tend to specialize by the material they work with most often. A few examples of materials in which these scientists specialize are ceramics, glasses, metals, nanomaterials (extremely small substances), polymers, and semiconductors.

A growing number of chemists work in interdisciplinary fields, such as biochemistry and geochemistry. For more information, see the profiles on biochemists and biophysicists and geoscientists.

Many people with a chemistry background become postsecondary teachers or high school teachers.

 



 

Work Environment for Chemists and Materials Scientists

Chemists held about 88,300 jobs in 2016. The largest employers of chemists were as follows:

Chemical manufacturing 33%
Research and development in the physical, engineering, and life sciences 17
Testing laboratories 10
Federal government, excluding postal service 7
Administrative and support and waste management and remediation services 6

Materials scientists held about 7,900 jobs in 2016. The largest employers of materials scientists were as follows:

Research and development in the physical, engineering, and life sciences 27%
Chemical manufacturing 13
Architectural, engineering, and related services 10
Management of companies and enterprises 9
Computer and electronic product manufacturing 6

Chemists and materials scientists typically work in laboratories and offices, where they conduct experiments and analyze their results. In addition to working in laboratories, materials scientists work with engineers and processing specialists in industrial manufacturing facilities. Some chemists also work in these facilities and usually are responsible for monitoring the environmental conditions at the plant.

Chemists and materials scientists who work for manufacturing companies may have to travel occasionally, especially if their company has multiple facilities. Others may work outdoors to collect samples and conduct onsite analysis of air, soil, or water.

Injuries and Illnesses

Chemists and materials scientists may be exposed to health or safety hazards when handling certain chemicals, but there is little risk if they follow proper procedures, such as wearing protective clothing when handling hazardous chemicals.

Work Schedules

Chemists and materials scientists typically work full time and keep regular hours. Occasionally, they may have to work additional hours to meet project deadlines or perform time-sensitive laboratory experiments during off-hours.

 


 

How To Become a Chemist or Materials Scientist

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 a related field is needed for entry-level chemist or materials scientist jobs. Research 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. Combined programs, which offer an accelerated bachelor’s and master’s degree in chemistry, also are available.

Many colleges and universities offer degree programs in chemistry that are approved by the American Chemical Society. 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, they take classes in math, 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 through internships, fellowships, or work–study programs in industry is also useful. Some universities offer cooperative programs in which students gain work experience while pursuing a degree.

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 clearly with team members and other scientists. They must read and write technical reports and give presentations.

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 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 math, 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.

Some chemists and materials scientists become natural sciences managers.

 

 

 

 

 

"Chemists and Materials Scientists"   SOC:  19-2031     OOH Code: U099

Thank you BLS.gov.