Perovskite Solar Cells: From Fabrication To Publication
Published 5/2026
Created by Shiva Navazani
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Level: Intermediate | Genre: eLearning | Language: English | Duration: 13 Lectures ( 3h 35m ) | Size: 3.57 GB

Master Perovskite Solar Cells: Covers Fabrication, JV/EQE Analysis, SEM/AFM Imaging, and Data Plotting in OriginLab.
What you'll learn
⚡ Master the complete fabrication cycle of high efficiency perovskite solar cells
⚡ Analyze and interpret XRD patterns to identify phases and crystal orientation.
⚡ Evaluate J-V characterization data and troubleshoot issues like hysteresis.
⚡ Apply professional lab protocols to achieve consistent and publishable results.
Requirements
❗ Basic knowledge of materials science, physics or chemistry at an undergraduate level.
Description
Unlock the secrets of next-generation photovoltaics with this comprehensive, hands-on guide to Perovskite Solar Cells (PSCs).
Are you a researcher, doctoral student, or materials engineer looking to master the fabrication and analysis of high-efficiency solar devices? This course bridges the gap between theoretical knowledge and practical laboratory expertise, providing you with a complete roadmap to success in the renewable energy sector.
What you will learn in this course
✨Fabrication Excellence: Get step-by-step guidance on professional substrate cleaning, etching, precursor preparation, and the critical "anti-solvent" spin-coating method for superior film quality.
✨Advanced Device Characterization: Take a deep dive into J-V curves, Hysteresis analysis, and EQE measurements to accurately validate your device performance and Power Conversion Efficiency (PCE).
✨Nano-Imaging Mastery: Learn to professionally interpret SEM and AFM data to visualize surface morphology, grain size distribution, and roughness at the nanoscale.
✨Scientific Data Visualization: Gain a complete module on usingOriginLab andImageJ to create publication-quality graphs and quantified data for submission to high-impact journals.
✨Scientific Impact & Design: Receive professional tips on designing effectiveGraphical Abstracts and technical reports that get your research noticed by reviewers and peers.
✨Stability & Lifetime: Understand degradation mechanisms and environmental testing to ensure your solar cells withstand real-world conditions.
Why take this course?
Unlike purely theoretical lectures found elsewhere, this course focuses on the practical "how-to" of solar cell research and engineering. Whether you are struggling with thin-film uniformity or looking to improve your device stability, the techniques shared here-backed by real-world research experience-will significantly accelerate your academic and professional career. You will gain the confidence to troubleshoot lab issues and produce reliable, reproducible results.
Enroll now to transform your raw laboratory data into professional scientific breakthroughs and elevate your standing in the global research community!
Who this course is for
⭐ Ph.D. students and researchers in materials science, nano technology and Solar energy.
⭐ Experimentalists looking for standardized protocols to improve device performances.
⭐ Lab technicians and engineers who want to master J-V and XRD data analysis.