MPTOOL automates sweeps, corrects for contact resistance, and applies regression models (e.g., Drude-Smith, Cole-Cole) to extract physically meaningful parameters. Step 1 – Sample Mounting Place the perovskite sample (e.g., MAPbI₃ on ITO glass) in a shielded probe station with temperature control (77 K to 500 K).
Here’s a well-structured, informative text on — written for engineers, researchers, or advanced students in materials science and semiconductor testing. Solid State Systems and MPTOOL: Precision Characterization of Materials 1. Introduction to Solid State Systems Solid state systems refer to physical structures built from non-moving components, typically crystalline or amorphous solids, where electronic, optical, or thermal properties arise from the arrangement of atoms and their bonding. These systems form the backbone of modern electronics — from MOSFETs and memory cells to photovoltaic cells and quantum dots. solid state systems mptool
Select Impedance vs. Frequency (1 Hz to 10 MHz) at DC bias steps of 0.1 V. Define voltage range for I-V sweep (−2 V to +2 V). Select Impedance vs
MPTOOL triggers a source meter, LCR meter, and temperature controller simultaneously. Data is streamed to a real-time plot. MPTOOL triggers a source meter