Will “Microarray Operations Vice President” be Replaced By Robots? 🤔

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Job Description

Design, develop, or supervise the production of materials, devices, or systems of unique molecular or macromolecular composition, applying principles of nanoscale physics and electrical, chemical, or biological engineering.

Job Details

The SOC (Standard Occupational Classification) code is 17-2199.09

☝️ Information based on the reference occupation “Nanosystems Engineers”.

Also Known As…

Tasks for “Microarray Operations Vice President”

Coordinate or supervise the work of suppliers or vendors in the designing, building, or testing of nanosystem devices, such as lenses or probes.
Supervise technologists or technicians engaged in nanotechnology research or production.
Apply nanotechnology to improve the performance or reduce the environmental impact of energy products, such as fuel cells or solar cells.
Create designs or prototypes for nanosystem applications, such as biomedical delivery systems or atomic force microscopes.
Write proposals to secure external funding or to partner with other companies.
Reengineer nanomaterials to improve biodegradability.
Develop green building nanocoatings, such as self-cleaning, anti-stain, depolluting, anti-fogging, anti-icing, antimicrobial, moisture-resistant, or ultraviolet protectant coatings.
Design nano-enabled products with reduced toxicity, increased durability, or improved energy efficiency.
Integrate nanotechnology with antimicrobial properties into products, such as household or medical appliances, to reduce the development of bacteria or other microbes.
Design nanosystems with components such as nanocatalysts or nanofiltration devices to clean specific pollutants from hazardous waste sites.
Identify new applications for existing nanotechnologies.
Develop processes or identify equipment needed for pilot or commercial nanoscale scale production.
Design or engineer nanomaterials, nanodevices, nano-enabled products, or nanosystems, using three-dimensional computer-aided design (CAD) software.
Synthesize, process, or characterize nanomaterials, using advanced tools or techniques.
Prepare nanotechnology-related invention disclosures or patent applications.
Provide technical guidance or support to customers on topics such as nanosystem start-up, maintenance, or use.
Prepare reports, deliver presentations, or participate in program review activities to communicate engineering results or recommendations.
Engineer production processes for specific nanotechnology applications, such as electroplating, nanofabrication, or epoxy.
Design or conduct tests of new nanotechnology products, processes, or systems.
Generate high-resolution images or measure force-distance curves, using techniques such as atomic force microscopy.
Develop catalysis or other green chemistry methods to synthesize nanomaterials, such as nanotubes, nanocrystals, nanorods, or nanowires.
Design nano-based manufacturing processes to minimize water, chemical, or energy use, as well as to reduce waste production.
Design nanoparticle catalysts to detect or remove chemical or other pollutants from water, soil, or air.
Provide scientific or technical guidance or expertise to scientists, engineers, technologists, technicians, or others, using knowledge of chemical, analytical, or biological processes as applied to micro and nanoscale systems.
Conduct research related to a range of nanotechnology topics, such as packaging, heat transfer, fluorescence detection, nanoparticle dispersion, hybrid systems, liquid systems, nanocomposites, nanofabrication, optoelectronics, or nanolithography.

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Surface profilers
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Four-point probes
Contact mask aligners
Low pressure chemical vapor deposition LPCVD systems
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X-ray photoelectron spectrometers
Atmospheric furnaces
Pulsed laser systems
Impedance analyzers
Oxidation furnaces
Capacitance-voltage C-V plotters
Differential interference contrast DIC microscopes
Desktop computers
Graphics processing units GPU
Reciprocating shaker water baths
Cryostats
Cryocut microtomes
Energy dispersive x-ray EDX spectroscopes
Atomic layer deposition ALD systems
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Spectroscopic ellipsometers
Field emission scanning electron microscopes FESEM
Laser pattern generators
Parylene deposition systems
Wafer spinners
Ultramicrotomes
Chemical mechanical polishing CMP systems
Ashing systems
Oxide etchers
Critical point dryers
Resistance evaporators
Metal-organic chemical vapor deposition MOCVD systems
Wire bonders
Wafer saws
Rapid thermal annealers RTA
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Ultraviolet UV exposure units
Probe stations
Raman scattering spectroscopes
Laser scanning confocal microscopes
Molecular beam epitaxy MBE systems
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Semiconductor parameter analyzers
Handheld refractometers
Spin dryers
Wafer bond aligners
Plasma cleaning systems
Tunable lasers
Particle size analyzers
Raman scattering microscopes
Fume hoods
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Image reversal ovens
Spectrophotometers
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Video microscopes
Electron beam lithography systems
Potentiostats
Computer servers
Focused ion beam scanning electron microscopes FIB-SEM
Isolation glove boxes
Optical profilers
Wafer bonding systems
Ion mills
Profilometers
Transmission electron microscopes TEM
Thermal evaporators
Scanning electron microscopes SEM
Nanoimprint lithography NIL systems
Magnetron sputtering systems
Scanning auger microscopes
Surface charge analyzers
Ellipsometers
Secondary ion mass spectrometers SIMS
Inkjet printers
Fluorescence optical microscopes
Temperature controllers
Spin rinse dryers
Atomic absorption spectrometers
Mask writers
Confocal Raman microscopes
Optical inspection microscopes
Optical pattern generators
Network analyzers
Scanning ellipsometers
X ray diffractometers
Ultrasonic cutters
Plasma enhanced chemical vapor deposition PECVD systems
Infrared microscopes
Atomic force microscopes AFM
Scanning tunneling microscopes STM

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CPMD
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DL_POLY
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UTQUANT
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QuantumWise Atomistix ToolKit