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Daniella Duran

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What's inside

Learning objectives

  • This course specifically includes tools and processes in snf and snsf. prior to getting in-lab and hands-on training on particular pieces of equipment or processes in these facilities, lab members need to go through appropriate sections and subsections of this course. please note this is an on-going course as we add more tool and processing sections (utilizing information from our current webpages, and creating new material), and also as we add and change tools and procedures in our ever-evolving facilities.
  • The preparatory training in this course involves different levels and methods of instruction and learning. the researcher will learn basic principles and concepts, as well as detailed operating procedures for equipment in the facilities. the content may be similar to what is taught in regular classes or lectures, but is presented in much smaller, more condensed units.
  • We believe these different levels and methods of learning will greatly help the researcher in becoming a better user of our facilities. the reasons are twofold. first, it will give the researcher much needed background knowledge and information for using the equipment, and choosing the correct tools to use. second, a large number of our researchers come from a wide range of backgrounds and disciplines: biology, chemical engineering, aero-astro, medicine, and many others. offering short introductions to plasma physics, optics, choosing the right sputter-deposition equipment, etc. will surely be beneficial to their success in using our varied resources.
  • Finally, this training and learning material should not only be very useful to our lab members, but to anyone interested in fabrication and characterization, whether they are researchers at other universities or other fabrication facilitates, or just interested in nanofabrication in general. anyone can view these materials, either as part of a class somewhere or just on their own.

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Develops tools and processes in SNF and SNSF, which are cutting-edge nanofabrication facilities
Offers preparatory training in fabrication and characterization techniques
Provides comprehensive instruction and materials for a wide range of learners with diverse backgrounds
Taught by instructors from Stanford Nanofabrication Facility and Stanford Nano Shared Facilities
Content is continuously updated to reflect the latest tools and procedures in the facilities
Introduces plasma physics and optics, which are fundamental concepts in nanofabrication

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Reviews summary

Nano @ stanford: useful, in-depth content

Learners say that Nano @ Stanford offers useful and in-depth content. Those with less background knowledge may struggle with some of the terminology used.
Learners remarked on how thorough the course materials were.
"So far, of what i've done, this course goes very in-depth."
Some learners not familiar with the subject matter found the terminology difficult to understand.
"Sadly, as a small-brain myself, I don't understand a lot of words that are brought up."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Nano @ Stanford with these activities:
Find a Mentor in your Field
Connects you with an experienced professional who can provide guidance and support throughout your learning journey.
Show steps
  • Identify potential mentors in your field.
  • Reach out to them and express your interest in mentorship.
  • Meet with your mentor regularly to discuss your progress and seek advice.
Volunteer at a Local Research Lab
Provides you with hands-on experience in a research setting, complementing the theoretical knowledge gained in this course.
Show steps
  • Find a local research lab that aligns with your interests.
  • Contact the lab and inquire about volunteer opportunities.
  • Assist with research projects and learn from experienced researchers.
Review Plasma Physics
Ensures that you have the background knowledge and information on Plasma Physics to succeed using our facilities.
Browse courses on Plasma Physics
Show steps
  • Read textbook chapters on Plasma Physics.
  • Work through online tutorials on Plasma Physics.
  • Attend a Plasma Physics lecture or seminar.
Two other activities
Expand to see all activities and additional details
Show all five activities
Join a Study Group on Characterization Techniques
Allows you to collaborate with peers, share knowledge, and reinforce your understanding of characterization techniques.
Show steps
  • Find a study group or form your own with classmates.
  • Meet regularly to discuss course materials and practice problems.
  • Prepare presentations on different characterization techniques.
Practice Using the SEM
Provides you with hands-on experience and helps you master the operation of the SEM, enhancing your ability to use our facilities effectively.
Show steps
  • Schedule time with a lab member or instructor to use the SEM.
  • Practice imaging and analyzing different samples.
  • Ask questions and troubleshoot any issues encountered.

Career center

Learners who complete Nano @ Stanford will develop knowledge and skills that may be useful to these careers:
Nanoscientist
Nanoscientists study the properties and applications of materials at the nanoscale. This course provides a strong foundation in the tools and processes used in nanofabrication, which is essential for nanoscientists to be able to design and create new materials. The course also covers the basics of plasma physics and optics, which are important for understanding how nanoscale materials interact with light and other forms of energy.
Materials Scientist
Materials scientists develop and study new materials, including nanomaterials. This course provides a strong foundation in the tools and processes used in nanofabrication, which is essential for materials scientists to be able to create and characterize new materials. The course also covers the basics of plasma physics and optics, which are important for understanding how materials interact with light and other forms of energy.
Chemical Engineer
Chemical engineers design and operate chemical plants and processes. This course provides a strong foundation in the tools and processes used in nanofabrication, which is becoming increasingly important in the chemical industry. The course also covers the basics of plasma physics and optics, which are important for understanding how chemical reactions occur at the nanoscale.
Electrical Engineer
Electrical engineers design and develop electrical systems and devices. This course provides a strong foundation in the tools and processes used in nanofabrication, which is becoming increasingly important in the electronics industry. The course also covers the basics of plasma physics and optics, which are important for understanding how electrical devices work at the nanoscale.
Research Scientist
Research scientists conduct research in a variety of fields, including nanotechnology. This course provides a strong foundation in the tools and processes used in nanofabrication, which is essential for research scientists to be able to design and conduct experiments. The course also covers the basics of plasma physics and optics, which are important for understanding how nanomaterials interact with light and other forms of energy.
Nanotechnologist
Nanotechnologists develop and apply nanotechnology to solve problems in a variety of fields. This course provides a strong foundation in the tools and processes used in nanofabrication, which is essential for nanotechnologists to be able to design and create new nanomaterials and devices. The course also covers the basics of plasma physics and optics, which are important for understanding how nanomaterials interact with light and other forms of energy.
Mechanical Engineer
Mechanical engineers design and develop mechanical systems and devices. This course provides a strong foundation in the tools and processes used in nanofabrication, which is becoming increasingly important in the manufacturing industry. The course also covers the basics of plasma physics and optics, which are important for understanding how mechanical devices work at the nanoscale.
Biomedical Engineer
Biomedical engineers design and develop medical devices and systems. This course provides a strong foundation in the tools and processes used in nanofabrication, which is becoming increasingly important in the medical industry. The course also covers the basics of plasma physics and optics, which are important for understanding how medical devices interact with the human body.
Product Manager
Product managers develop and manage products. This course provides a strong foundation in the tools and processes used in nanofabrication, which can be used to develop and manage products that use nanotechnology. The course also covers the basics of plasma physics and optics, which can be used to understand the scientific principles behind nanotechnology products.
Environmental Engineer
Environmental engineers design and develop solutions to environmental problems. This course provides a strong foundation in the tools and processes used in nanofabrication, which is becoming increasingly important in the environmental industry. The course also covers the basics of plasma physics and optics, which are important for understanding how environmental processes occur at the nanoscale.
Science Teacher
Science teachers teach science at the high school or college level. This course provides a strong foundation in the tools and processes used in nanofabrication, which can be used to teach students about the latest advances in science and technology. The course also covers the basics of plasma physics and optics, which can be used to teach students about the fundamental principles of physics.
Technical Writer
Technical writers create technical documentation, such as manuals, reports, and presentations. This course provides a strong foundation in the tools and processes used in nanofabrication, which can be used to create technical documentation for a variety of audiences, including scientists, engineers, and technicians. The course also covers the basics of plasma physics and optics, which can be used to explain complex scientific concepts in a clear and concise manner.
Patent Attorney
Patent attorneys help clients obtain and protect patents for their inventions. This course provides a strong foundation in the tools and processes used in nanofabrication, which can be used to understand the technical details of patent applications. The course also covers the basics of plasma physics and optics, which can be used to understand the scientific principles behind many patented inventions.
Science Policy Analyst
Science policy analysts develop and implement policies that affect science and technology. This course provides a strong foundation in the tools and processes used in nanofabrication, which can be used to understand the potential benefits and risks of nanotechnology. The course also covers the basics of plasma physics and optics, which can be used to understand the scientific principles behind nanotechnology.
Science Journalist
Science journalists write about science and technology for the general public. This course provides a strong foundation in the tools and processes used in nanofabrication, which can be used to write clear and accurate articles about nanotechnology. The course also covers the basics of plasma physics and optics, which can be used to explain complex scientific concepts in a way that is accessible to non-scientists.

Reading list

We've selected 15 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Nano @ Stanford.
Provides a comprehensive overview of nanotechnology, including fundamental concepts, materials, and applications. It would serve as a useful reference for background knowledge and additional depth on specific topics related to nanotechnology.
Provides a comprehensive overview of microfabrication and nanotechnology, covering topics such as materials, processes, and applications. It would be a useful reference for background knowledge and additional depth on specific topics.
Provides a comprehensive overview of semiconductor physics and devices, including basic concepts, materials, and applications. It would serve as a useful reference for background knowledge in semiconductor physics and device operation, which is essential for understanding the design and operation of electronic devices and circuits used in nanofabrication and nanotechnology.
Provides a comprehensive overview of solid state physics, including electronic, thermal, and optical properties of materials. It would serve as a useful reference for background knowledge in solid state physics and materials science.
Provides a concise introduction to nanotechnology, including fundamental concepts, materials, and applications. It would be a useful resource for background knowledge and as a reference for specific topics related to nanotechnology.
Provides a comprehensive overview of advanced engineering mathematics, including calculus, linear algebra, and differential equations. It would serve as a useful reference for mathematical background knowledge that is essential for understanding the concepts and equations used in nanofabrication and nanotechnology.
Provides a comprehensive overview of microelectronic circuits, including basic concepts, analysis, and design. It would serve as a useful reference for background knowledge in electronics and circuit theory, which is essential for understanding the design and operation of electronic devices and circuits used in nanofabrication and nanotechnology.
Provides a comprehensive overview of plasma physics, including basic concepts, waves, and applications. It would serve as a useful reference for background knowledge in plasma physics, which is relevant to some of the fabrication processes used in the course.
Provides a comprehensive overview of optics, including basic concepts, waves, and applications. It would serve as a useful reference for background knowledge in optics, which is relevant to some of the fabrication processes used in the course.
Provides a comprehensive overview of microelectronics, including circuit analysis and design. It would serve as a useful reference for background knowledge in electronics and circuit theory.
An overview of the physical and materials principles used in nanoelectronics. is helpful in providing background knowledge and information for using the equipment.
Provides a detailed treatment of the principles and applications of X-ray Photoelectron Spectroscopy and Auger Electron Spectroscopy. This book is more valuable as additional reading.

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