INFOGRAPHIC: How to Choose a Puller
Below are some popular pullers from WPI, including Sutter pullers. Here we compare them so you can choose a system that is best suited for your application.
VIDEO: How to Pull Glass using the PUL-1000 Micropipette Puller
The PUL-1000 is a microprocessor controlled, four-stage, horizontal puller for making glass micropipettes or microelectrodes. Here is how to run a program that will pull two identical microelectrodes.
VIDEO: Getting Started with your PUL-1000 Micropipette Puller
The PUL-1000 is a microprocessor controlled, four-stage, horizontal puller for making glass micropipettes or microelectrodes. Here is a quick overview to get you started qui
How to Load Capillary Glass in a PUL-1000 Micropipette Puller
The PUL-1000 is a microprocessor controlled, four-stage, horizontal puller for making glass micropipettes or microelectrodes. Here we will see how to load a piece of glass into the carriage.
VIDEO: How to Run a Glass Softening Test on the PUL-1000 Puller
The PUL-1000 is a microprocessor controlled, four-stage, horizontal puller for making glass micropipettes or microelectrodes. We will show you how to run a glass softening test.
Get Familiar with Your New PUL-1000 Micropipette Puller
Let’s look at the PUL-1000, a microprocessor controlled, four-stage, horizontal puller for making glass micropipettes or microelectrodes. Here we will examine the design of the unit.
VIDEO: Why Buy a PUL-1000 Research Puller for Making Micropipettes?
PUL-1000 is a microprocessor controlled, four-stage, horizontal puller for making glass micropipettes or microelectrodes used in intracellular recording, patch clamp, microperfusion and microinjection. The PUL-1000 is capable of producing a vast array of pipette shapes, such as a long graduated taper, a short graduated taper and a short taper bee stingers. Here's a quick introduction the PUL-1000 research puller.
Five Factors That Affect the Pulling of Glass Micropipettes
Pulling micropipettes or microelectrodes is a science and an art, requiring some finesse. Here we discuss the five major factors which can affect the shape of a pulled glass micropipette or microelectrode.
VIDEO: Using WPI's PUL-1000 Micropipette Puller
World Precision Instruments' PUL-1000 is a microprocessor controlled, four-stage, horizontal puller for making glass micropipettes or microelectrodes used in intracellular recording, microperfusion and microinjection. It offers programmable sequences of up to four steps with complete control over the heating, force, movement and cooling time. This allows graduated cycles for a variety of applications. PUL-1000 can produce pipettes with tip diameters from less than 0.1µm to 10+ µm.
Microforges, Pullers, Bevelers Application Guide
Crafting high-quality glass micropipettes is essential for precision work in microinjection, patch clamping, electrophysiology, and a wide range of microsurgical and research applications. WPI offers a complete suite of microforges, pullers, and bevelers designed to help researchers create consistent, reproducible pipette shapes tailored to their experimental needs. Whether you’re pressure-polishing patch-clamp pipettes, preparing multi-barrel assemblies, or measuring electrode impedance, the tools below provide reliable control, advanced programmability, and robust optical performance to support even the most demanding labs.