Tisdale Lab @ MIT

Our laboratory consists of 1850 ft² of space on the 1^st floor of Building 66 (rooms 125 and 163) on the MIT main campus. This space includes 2 wet lab spaces and an interior environment-controlled laser lab with two large optical bays. Click on a picture below to interact.

Wet lab

• 4 Fume Hoods
• Schlenk Line
• Large glove box with integrated spin coater, centrifuge, and freezer
• Plasma cleaner, sonicator, oven, inspection microscope
• In-house high-purity nitrogen distribution system
• Agilent Cary 5000 UV-Vis-NIR Spectrophotometer with integrating sphere attachment
• Fiber-coupled LEDs and spectrometers for benchtop visible and NIR photoluminescence measurement

Laser Lab

The ultrafast bay features:

• 15’x9’x18” L-shaped floating optical table
• 76 MHz ultrafast laser system with Ti:Sapphire oscillator and tunable OPO (Coherent Verdi V-18, Mira-HP, and Mira-OPO)
• Nikon Eclipse TI-U Inverted Microscope with assorted objectives
• Variable repetition rate (single shot to 200 kHz) one-box Yb Oscillator/Amplifier with dual tunable noncollinear optical parametric amplifiers (Spectra-Physics Spirit NOPA)
• 600 mm, 220mm, and 150 mm delay lines
• Fiber-coupled 500 mm spectrograph
• High-speed linear cameras and electronics for visible and NIR
• Zurich Instruments HF2LI and SRS 844 Lock-in Amplifiers, and SR400 Gated Photon Counter
• Cryostat with transfer line, heater, and temperature controller

The not-so-fast bay features:

• 14’x5’x24” floating optical table
• Two Nikon Eclipse TI-U Inverted Microscopes with high-NA immersion objectives and high-quality dichroics and edge filters
• Volume holographic grating notch filter for low-frequency Raman
• 500 mm Spectrograph and CCD camera for photoluminescence and Raman
• 405nm pulsed diode, 488nm, 532 nm, and 785 nm CW laser lines, and access to ultrafast lasers via fiber optics
• Single photon counting avalanche photodiodes for visible and NIR and time-correlated single photon counting (TCSPC) electronics
• Integrating sphere for quantum yield measurements
• Microscope-compatible cryostat with temperature controller

Immediately adjacent to our lab is the Olsen Lab, which contains a suite of complementary capabilities in organic polymer synthesis and cell culture.

Other facilities that we regularly use:

• MIT.nano
• Center for Materials Science and Engineering (AFM, SEM, TEM, XRD, ALD, ellipsometry)
• ONE Lab growth facility (thermal evaporation, sputtering, optoelectronic device fabrication and testing)
• eni-MIT Nanomaterials Metrology Lab (thermal evaporation, spectrophotometry, AFM)
• Microsystems Technology Laboratory (lithography, nanofabrication)
• RLE Scanning Electron Beam Lithography facility
• Center for Functional Nanomaterials at Brookhaven National Laboratory, (Advanced Optical Spectroscopy and Microscopy)
• Cornell High Energy Synchrotron Source