Upcoming Events

This course is intended to provide users with practical examples of fitting SAXS data with SASview software.

Since most SAXS profiles do not exhibit well defined peaks like crystalline diffraction but instead characteristic "slopes," it is a heavily model-dependent method. After proper data reduction of a SAXS patterns, the data interpretation methods include extracting structural information from standardized plots such as Guinier, Porod, Kratky and Zimm plots. Elements of SAXS data modeling include calculations of the radius of gyration, of the single-particle form factor, inter-particle structure factors and the modeling effects of polydispersity.

This group training event will focus on the basic theory and operation of the Renishaw Invia Reflex Micro Raman
Users will learn about specifics of the instrument capabilities and strategies for data collection and data quality improvement. Users can bring their own (non-hazardous) samples for this training. We will work together until we are both comfortable with your safe and successful operation of the instrument in a shared facility environment. This is usually one session <2hours. Full independent tool access will be granted upon completion of this training session.
 

Active MIT.nano user account is required to participate in this training. Please setup an account prior to registering for the training event. 

This group training event will focus on the basic operation of the EDAX EDS available at Characterization.nano. This group training will cover theoretical background, software interface and strategies for Data collection. Users can bring their own samples for this training. SEM training is a prerequisite for this training. Full independent tool access will be granted upon completion of this training session.

Active MIT.nano user account is required to participate in this training. Please setup an account prior to registering for the training event.  

Basic SEM training is a prerequisite for this training.

This group training event will focus on the basic theory and operation of the Agilent 5100 DVD Inductively Coupled Plasma-Optical Emission Spectrometer 
Users will learn about specifics of the instrument capabilities and strategies for data collection and data quality improvement. This is usually two session <2hours each. During the first session we will run a DEMO samples and we will discuss your sample preparation. For your second session Instructor will assist you run your samples.  Second session will be scheduled at the end of this session. We will work together until we are both comfortable with your safe and successful operation of the instrument in a shared facility environment.  Full independent tool access will be granted upon completion of both training sessions.
 

Active MIT.nano user account is required to participate in this training. Please setup an account prior to registering for the training event. 

All users have lab access during staffed hours (Mo-Th 8am - 9pm; Fr 8am-7pm).  To be able to use the lab after-hours and on weekends, users need to understand how to respond in emergency situations. During the 24h access qualification, a small group of PTC members ask you relevant safety questions that allow you to demonstrate your knowledge. This discussion typically takes 10-15 minutes.

Prior completion of the wet chemical training is required, as it provides the relevant safety foundations. 

The orientation consists of a series of self-paced videos to watch, and a 30-minute check-in over zoom, where we provide an introduction, answer questions about the lab & capabilities and how to get started, and check for any missing trainings. All cleanroom and packaging space users need to complete the orientation before card access can be granted.

Users with no prior cleanroom experience also take a half-day “quick-start” class, which provides a hands-on experience in core methods (deposition, lithography, etch). Users with prior cleanroom experience will receive a waiver during the orientation check-in. If you only need to use the packaging space (and not the cleanroom), the quick-start is not needed.

Registering for the orientation, you will get a chance to describe your general fabrication needs, helping us better understand each user’s goals and expectations. The registration form also contains a checklist to help you spot any missing EHS trainings.

After registering, you will get an email with a link to the videos to watch, and the zoom link to the orientation event.

All users without previous cleanroom work experience are required to take the quick-start training. Waivers for prior experience will be handled during the Fab.nano orientation.

The quick-start provides hands-on training to new users, by following through a simple 1-mask process in a small group. You will gain familiarity with entering the lab, handling samples, learn about deposition, lithography and etch tools, and how to verify process results.

An active MIT.nano user account is required to participate in this training. Please setup an account prior to registering for the training event.

Because we are working in the lab, please wear long pants and full shoes

Please have the Fab.nano Orientation completed before the quick-start event.

The Wet Chemical Process Training provides an introduction for all work with liquid chemicals in Fab.nano. Completion is required for any use of fume hoods or wet benches (including solvents, hands-on training for spin coaters, corrosive hoods and wet benches).

The training is also a prerequisite for 24-hour access to the Fab.nano facility, as it provides the relevant safety foundations.

This training event will focus on the basic imaging and operation of the Bruker Icon AFM available at MIT.nano Characterization Facilities. Starting from the basic principles of AFM, users will also learn about cantilever selection and installation, different imaging modes, image quality improvement, and data processing and analysis methods. Users can bring their own samples for this training and SPM probes are provided. Notice, users must supply their own probes for followup qualification sessions. Full independent tool access will be granted upon completion of 2 additional one-on-one supervised use sessions that will be coordinated with the staff member during this small group training.

The Icon XR has many SPM modes including contact and PeakForce tapping mode with ScanAsyst, Magnetic Force Microscopy, Piezo Force Microscopy, conducting atomic force microscopy (AFM). There are also additional features such as electrical characterization from 80 fA to 1 uA with 10 nm spatial resolution, Kelvin Force Probe Microscopy with amplitude or frequency feedback, and pixel-by-pixel quantitative force characterization to probe material properties. Following the basic training session, users can coordinate an advanced mode specific training with the MIT.nano staff.

Active MIT.nano user account is required to participate in this training. Please setup an account prior to registering for the training event.