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Semiconductor Jobs in Reston, VA (NOW HIRING)

ENGINEER, DEMQRA AUTOMOTIVE PQRE

Manassas, VA · On-site

$102K - $129K/yr

S or Equivalent in EE or related field of study * 3+ years of experience in semiconductor quality, reliability, product engineering, or qualification (DRAM/NAND preferred); experience supporting ...

S or Equivalent in EE or related field of study * 3+ years of experience in semiconductor quality, reliability, product engineering, or qualification (DRAM/NAND preferred); experience supporting ...

This role requires a seasoned government relations professional with deep expertise in the semiconductor and technology sectors, a strong existing network across key government stakeholders, and the ...

This role requires a seasoned government relations professional with deep expertise in the semiconductor and technology sectors, a strong existing network across key government stakeholders, and the ...

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Semiconductor information

What are jobs that have to do with semiconductors?

Jobs related to semiconductors include semiconductor process engineers, device engineers, manufacturing technicians, quality control specialists, and research scientists. These roles involve designing, manufacturing, testing, and improving semiconductor devices and integrated circuits, often requiring knowledge of cleanroom environments, semiconductor fabrication processes, and relevant technical skills.

What Is a Semiconductor?

A semiconductor is a type of material able to conduct electricity in a way similar to, but not the same as, some metals, which are the opposite of insulators like glass. Using a variety of technical means, semiconductors can be engineered to have different levels of conductivity and conduct electricity in one direction more easily than the other. The most common commercial materials used in semiconductor manufacturing are the pure elements silicon, germanium, and other more complex organic and inorganic compounds.

What jobs pay $500,000 a year in the US?

In the semiconductor industry, executive roles such as Vice President or Chief Executive Officer can earn $500,000 or more annually, especially with bonuses and stock options. Highly specialized engineers or technical directors with extensive experience and leadership responsibilities may also reach this compensation level. These roles typically require advanced degrees, significant industry experience, and strong leadership skills.

What are some common challenges faced by professionals working in the semiconductor industry?

Professionals in the semiconductor industry often face challenges such as keeping up with rapid technological advancements, managing tight production timelines, and maintaining high quality standards in a highly competitive global market. Collaboration across multidisciplinary teams—including design, fabrication, and testing—is essential to ensure product success. Additionally, adapting to evolving industry regulations and supply chain disruptions requires strong problem-solving skills and continuous learning.

What is the difference between Semiconductor vs Electronics Technician?

AspectSemiconductorElectronics Technician
Required CredentialsTypically an associate degree or technical certification in semiconductor manufacturing or engineeringAssociate degree or diploma in electronics or related field
Work EnvironmentCleanroom facilities, manufacturing plants, R&D labsElectronics repair shops, manufacturing floors, technical support environments
Industry UsageSemiconductor manufacturing, chip design, fabricationElectronics repair, testing, installation, and maintenance

Semiconductors focus on the design, fabrication, and testing of semiconductor devices and chips, often within specialized cleanroom environments. Electronics Technicians work on maintaining, repairing, and testing electronic systems and devices across various industries. While both roles require technical skills and certifications, semiconductors are more specialized in chip manufacturing, whereas electronics technicians have broader applications in electronic device support and maintenance.

What are the key skills and qualifications needed to thrive as a Semiconductor Engineer, and why are they important?

To thrive as a Semiconductor Engineer, you need a solid background in electrical engineering, physics, or materials science, often supported by a relevant bachelor's or master's degree. Familiarity with CAD tools, semiconductor fabrication processes, and industry-standard software like SPICE or MATLAB is typically required. Analytical thinking, attention to detail, and strong problem-solving skills are crucial soft skills for this role. These competencies enable engineers to design, optimize, and troubleshoot semiconductor devices that power modern electronics.

Is semiconductor a good career?

A career in semiconductors involves working with the design, manufacturing, and testing of electronic components like chips and integrated circuits. It offers opportunities in engineering, research, and production, often requiring technical skills and knowledge of tools such as CAD software. The industry is essential to technology development and tends to have steady demand and competitive salaries.

What does a semiconductor job do?

A semiconductor job involves designing, manufacturing, testing, or maintaining semiconductor devices such as microchips and integrated circuits. These roles require knowledge of electronics, cleanroom environments, and tools like photolithography and testing equipment. Employees often work in labs or manufacturing facilities and may need technical certifications or degrees in engineering or related fields.

What are semiconductors and what do semiconductor professionals do?

Semiconductors are materials that have electrical conductivity between that of conductors and insulators, commonly used to manufacture electronic components like microchips and transistors. Professionals in the semiconductor industry design, manufacture, test, and improve these components, which are essential for devices such as smartphones, computers, and automotive electronics. Their work involves specialized knowledge in physics, engineering, and technology to innovate and produce reliable, high-performance products.
What are the most commonly searched types of Semiconductor jobs in Reston, VA? The most popular types of Semiconductor jobs in Reston, VA are:
What are popular job titles related to Semiconductor jobs in Reston, VA? For Semiconductor jobs in Reston, VA, the most frequently searched job titles are:
What job categories do people searching Semiconductor jobs in Reston, VA look for? The top searched job categories for Semiconductor jobs in Reston, VA are:
What cities near Reston, VA are hiring for Semiconductor jobs? Cities near Reston, VA with the most Semiconductor job openings:
Infographic showing various Semiconductor job openings in Reston, VA as of July 2026, with employment types broken down into 93% Full Time, 5% Part Time, 1% Contract, and 1% Nights. Highlights an 91% Physical, 2% Hybrid, and 7% Remote job distribution.
Postdoctoral Fellow (PREP0004333)

Postdoctoral Fellow (PREP0004333)

Johns Hopkins University

Gaithersburg, MD • On-site

$53K - $72K/yr

Full-time

Re-posted 21 days ago


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Company rating: 7.5 out of 10

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Job description

Description
PREP Research Associate
CHIPS Funded Project

This position is part of the National Institute of Standards and Technology (NIST) Professional Research Experience Program (PREP). NIST recognizes that its research staff may want to collaborate with researchers at academic institutions on specific projects of mutual interest and, therefore, requires those institutions to be recipients of a PREP award. The PREP program involves staff from a wide range of backgrounds conducting scientific research across various fields. Individuals in this position will perform technical work supporting the collaboration's scientific research.
Research Title:
HR-EBSD/HR-TKD Strain Measurement for Semiconductor Devices (U.S. Citizen Preferred)
The work will entail:
The Materials Measurement Laboratory of the National Institute of Standards and Technology is seeking qualified persons (U.S. Citizens Preferred) to join a multi-disciplinary team of scientists working to advance the current state-of-the-art in strain measurement methods for semiconductor devices and packages. The candidate will operate a first-of-its-kind Electron Backscatter Diffraction (EBSD) and Transmission Kikuchi Diffraction (TKD) detector, create samples using Focused Ion Beam (FIB) instruments, and perform innovative data processing using both commercial and custom developed tools. Collaboration externally with semiconductor entities, detector manufacturers, and analysis software vendors, as well as internally at NIST with Transmission Electron Microscopy (TEM) aspects of the project are critical to success.
Key responsibilities will include but are not limited to:
• Operating a scanning electron microscope (SEM) to collect EBSD data for HR-EBSD analysis.
• Analyzing HR-EBSD data with commercial, open source, and custom developed software.
• Performing assessments of precision and accuracy of strain measurements using NIST developed reference materials and customized samples.
• Using commercial and open-source codes to generate simulated EBSD patterns for comparison with experimental patterns and for assessing performance of new HR-EBSD analysis tools.
• Operating a state-of-the-art automated FIB to create electron transparent samples from blanket films and leading node semiconductor devices for strain measurements via TKD and 4D-STEM.
• Collaborating with the Strain Measurement for Semiconductor Devices and Packages team within NIST, as well as with external stakeholders.
• Publishing results in peer reviewed scientific journals and present results at scientific conferences.
Qualifications
• Ph.D. in materials science, physics, chemistry, chemical engineering or related field.
• Hands-on expertise operating scanning electron microscopes with EBSD detectors.
• Experience with developing custom data analysis workflows including image processing using programming environments like python, C++, Mathematica, Matlab, or similar.
• Comprehension of the mechanics of materials including stress, strain, and deformation. Mathematical formalizations of single crystal elasticity are required, as well as basic understanding of crystalline defects that influence strain.
• Basic understanding of the finite element analysis (FEA) method for simulation of the mechanical behavior of complex geometries like transistors.
• Strong written and oral communication skills; ability to work independently and as part of a team.
• U.S. Citizen Preferred.
Application Instructions
Please upload the following with your application:
• CV/Resume
*Please limit C.V to 3 pages only and ONLY include a valid email address for your contact info. Your resume will not be considered if the following information is included on your CV/resume.
Self portraits
Phone number
Home address/Country
Citizenship status
Languages spoken
Sex/Gender
Privacy Act Statement
Authority: 15 U.S.C. § 278g-1(e)(1) and (e)(3) and 15 U.S.C. § 272(b) and (c)
Purpose: The National Institute for Standards and Technology (NIST) hosts the Professional Research Experience Program (PREP) which is designed to provide valuable laboratory experience and financial assistance to undergraduates, post-bachelor's degree holders, graduate students, master's degree holders, postdocs, and faculty.
PREP is a 5-year cooperative agreement between NIST laboratories and participating PREP Universities to establish a collaborative research relationship between NIST and U.S. institutions of higher education in the following disciplines including (but may not be limited to) biochemistry, biological sciences, chemistry, computer science, engineering, electronics, materials science, mathematics, nanoscale science, neutron science, physical science, physics, and statistics. This collection of information is needed to facilitate the administrative functions of the PREP Program.
Routine Uses: NIST will use the information collected to perform the requisite reviews of the applications to determine eligibility, and to meet programmatic requirements. Disclosure of this information is also subject to all the published routine uses as identified in the Privacy Act System of Records Notices: NIST-1: NIST Associates.
Disclosure: Furnishing this information is voluntary. When you submit the form, you are indicating your voluntary consent for NIST to use of the information you submit for the purpose stated. By applying to a CHIPS-funded PREP opportunity, you also acknowledge that participation in the project requires signing a Non-Disclosure Agreement (NDA) prior to beginning any work.

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