A high-power femtosecond laser for NLO imaging and optical manipulation
A laser scanning microscope integrates CARS, SRS, TPEF, SHG, TA, spontaneous Raman (532 nm pump), pulse picking, and opto-control modalities. Designed for optical imaging and opto-control.
CW-RPOC system #1 in BRWN 4175. The system is built upon a lab-designed laser scanning confocal microscope and real-time optoelectronic feedback, with advanced software control. Four CW lasers including 405 nm, 473 nm, 532 nm, and 589 nm are available. A femtosecond laser is also available for optical manipulation. The system is designed for spatiotemporally precise control of chemical processes and biomolecular activities in live cells.
CW-RPOC system #2 in BRWN 4174. The system is built upon a lab-designed laser scanning confocal microscope and real-time optoelectronic feedback, with advanced software control. Five CW lasers including 405 nm, 473 nm, 532 nm, 589 nm, and 633 nm are available. Designed for spatiotemporally precise control of chemical processes and biomolecular activities in live cells.
Design and applications of advanced comparator circuitry for optical manipulation
A laser scanning confocal microscope system (LSM510 Zeiss) for biological research. This system has 7 lasers and 3 detection channels.
Including three sterile biological safety cabinets (Thermofisher), three incubators for cell and tissue culture (Thermofisher, hypoxia environment available), an incubator for microbiological cell culture (Thermofisher), a freezer (-20 Cº)/refrigerator (4 Cº) combination, and -80Cº freezer (Eppendorf), a UV-VIS spectrometer (Thermofisher), a microplate absorbance reader (Accuris MR9600), a plasma cleaner (Plasma etch PE50), a water purification system (Thermofisher). Besides, a centrifuge (Eppendorf), cryogenic rack and storage systems (Thermofisher), a water bath, a sonicator, shakers, balances, and other cell culture supplies are available.