20 credits minimum

Program Division: Division of Natural Sciences
Program Location: Taylorsville Redwood, Science & Industry Building, SI 345
General Information: (801) 957-4073
Program Information: (801) 957-4150
Program Website: http://www.slcc.edu/engineering
Academic Advisor: SI - 209, (801) 957-4858

Program Faculty:
Dean - Dr. Clifton Sanders
Associate Dean - Dr. Peter Iles
Associate Professor − Dr. Holly Moore
Instructor − Dr. James Smith
Instructor - Dr. Wesley Sanders

Program Description:
The Microscopy Certificate of Proficiency Program will provide students with skills in basic optical, electron, and scanning probe microscopy techniques. Electron and scanning probe microscopes are powerful tools designed to generate topographical images and data on a wide variety of micro -and nanoscale materials. These microscopes are used in a multitude of academic and industrial endeavors across many scientific disciplines. This two-year certification program comprises of coursework with a substantial hands-on component. Students who complete the program will be proficient in basic optical microscopy, scanning probe microscopy, electron microscopy, chemical characterization (x-ray/EDS), electrical characterization, image processing, interpretation of microscope data, and presentation of observations. The proficiencies addressed in the microscopy program are outlined by the Nanotechnology Applications and Career Knowledge (NACK) center model at Penn State. The application of microscopy is an important component of numerous economic fields including but not limited to; semiconductors, materials science, metallurgy, engineering, environmental studies, medicine, manufacturing, and nanotechnology. Local area semiconductor fabrication facilities, namely IM Flash and Fairchild semiconductor, can benefit from the program by having a pool of technicians to choose from, in the Salt Lake area, ready to enter the nanotechnology workforce. These students turned technicians are ready to complete in a global nanotechnology market because the Microscopy Certificate of Proficiency Program trains participants in the skill sets needed to characterize material on the micro- and nanoscale. This certificate is meant to be a stackable credential, meaning students can use the knowledge and technical skills acquired to enhance their chosen field of study or employment.

Career Opportunities:
Students completing the Microscopy Certificate of Proficiency program will be highly qualified for most entry-level lab assistant positions or technician positions in a variety of fields. Microscopy related employment is available in materials research, medical diagnostic, life sciences research, product development, quality assurance, failure analysis,  process optimization, just to name a few. Potential lab assistant and technician entry level positions for students who complete the program are found in government, academic, and industrial institutions.

Transfer/Articulation Information:
None.

Program Entry Requirements:
None.

Total Program/Course Fees:
$100 Lab fees for each individual microscopy course (electron microscopy, scanning probe microscopy, and optical microscopy).

Additional chemistry and elective course fees may apply.

Estimated Cost for Students:
Tuition and books each semester.

Estimated Time to Completion:
Full-time: Four semesters (12 credit hours per semester)
Part-time: Six semesters (6 credit hours per semester)

Specialized Accreditation:
None.

Program Student Learning Outcomes	Related College-Wide Student Learning Outcomes
Students will learn how to characterize micro and nanoscale structures using Atomic Force Microscopy, Scanning Electron Microscopy, and Transmission Electron Microscopy. Additionally, students will learn how to analyze nanoscale materials using energy dispersive x-ray spectroscopy (EDS) and UV-VIS spectroscopy.	1 - Acquire substantive knowledge. 2 - Communicate effectively. 3 - Develop quantitative literacy. 4 - Think critically and creatively. 5 - Civic engagement. 6 - Work professionally and constructively.
Students will demonstrate their ability to deposit micro and nanoscale structures utilizing stamping lithography, imprint lithography, and self assembly of alkanethiol molecules. Students will subsequently demonstrate their ability to use the AFM, SEM, TEM, and spectroscopic techniques to analyze their sample.	1 - Acquire substantive knowledge. 3 - Develop quantitative literacy. 4 - Think critically and creatively.
Students will understand the chemical and physical phenomena associated with the following fabrication techniques; top-down fabrication, sputter, physical vapor deposition systems, plasma, and chemical materials modification.	1 - Acquire substantive knowledge. 3 - Develop quantitative literacy. 4 - Think critically and creatively.
Students will develop a professional decorum that is transferable to an industrial or academic nanofabrication lab by conducting presentations in aassociated microscopy course work. Preparation for the presentation involves; research skills, presentation skills, and technical reporting and documentation.	2 - Communicate effectively. 3 - Develop quantitative literacy. 4 - Think critically and creatively. 5 - Civic engagement. 6 - Work professionally and constructively. 7 - Develop computer and information literacy.