Micropipettes were fabricated from quartz glass capillaries (QF100-50–7.5, Sutter Instrument, Novato, CA) using a P-2000 micropipette laser puller (World Precision Instruments, Sarasota, FL). An Ag/AgCl wire was inserted in the micropipette to act as the working electrode and another Ag/AgCl wire was immersed in a 1 × PBS bath (Oxoid Ltd, Thermo Fisher, UK), acting as the reference electrode. Current–voltage measurements are performed using a MultiClamp 700B patch-clamp amplifier (Molecular Devices, Sunnyvale, CA). The signal was filtered using a Digidata 1550B digitizer, with a low-pass filter at 10 kHz, and signal recording was performed using the pClamp 10 software (Molecular Devices), at a rate of 100 kHz. For electrochemical analysis experiments, the micropipettes were filled with 1 × PBS. For electrowetting experiments, the micropipettes were filled with a solution of 10 mM tetrahexylammonium tetrakis(4-chlorophenyl)borate (THATPBCl) salt in 1,2-dichloroethane (1,2-DCE).
P 2000 micropipette laser puller
Manufactured by World Precision Instruments
Sourced in Canada
The P-2000 micropipette laser puller is a laboratory instrument used to create micropipettes from glass capillary tubes. It utilizes a laser heat source and precise computer control to pull and shape the glass material into a narrow, tapered tip.
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2 protocols using p 2000 micropipette laser puller
1
Fabrication and Characterization of Micropipettes
2
Micro-Electrochemical Analysis and Electrowetting Setup
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Micropipettes were fabricated from quartz glass capillaries (QF100-50-7.5, Sutter Instrument, Novato, CA) using a P-2000 micropipette laser puller (World Precision Instruments, Sarasota, FL). An Ag/AgCl wire was inserted in the micropipette to act as the working electrode and another Ag/AgCl wire was immersed in a 1xPBS bath (Oxoid Ltd, ThermoFisher, UK), acting as the reference electrode. Current-voltage measurements are performed using a MultiClamp 700B patch-clamp amplifier (Molecular Devices, Sunnyvale, CA). The signal was filtered using a Digidata 1550B digitizer, with a low-pass filter at 10kHz, and signal recording was performed using the pClamp 10 software (Molecular Devices), at a rate of 100kHz. For electrochemical analysis experiments, the micropipettes were filled with 1xPBS. For electrowetting experiments, the micropipettes were filled with a solution of 10mM tetrahexylammonium tetrakis(4-chlorophenyl)borate (THATPBCl) salt in 1,2dichloroethane (1,2-DCE).
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