# Introduction to Polymer Science by Dr. Yu Wang - [Front Page](https://hackmd.io/@YW2025/rkHsf-yJyl) - [Ch01. Introduction](https://hackmd.io/@YW2025/H1C0A0vsC) - [Ch02. Overview of Polymer Science](https://hackmd.io/@YW2025/SJl1mXAjC) - [Ch03. Step Growth Polymerization](https://hackmd.io/@YW2025/BkdZB3yhA) - [Ch04. Chain Growth Polymerization](https://hackmd.io/@YW2025/BkfcHhy30) - [Ch05. Precision Polymerization Methods](https://hackmd.io/@YW2025/H1H0B2JnR) - [Ch06. Depolymerization](https://hackmd.io/@YW2025/rka0onQ2C) - [Ch07. Polymer Conformation](https://hackmd.io/@YW2025/BJAZwnJnC) - [Ch08. Polymer Mixture and Solution](https://hackmd.io/@YW2025/SyoOR3QhR) - [Ch09. Bulk Polymer Properties](https://hackmd.io/@YW2025/Hkw0R3Qn0) Future plan: A chapter covering characterization techniques. Brief description of mechanical properties, processing. <!-- create 10 multiple choice questions, 5 choices each, only 1 is correct. use raw latex format using exam package as the example: \question[3] Which of the following current large-scale plastics have the greatest potential to be efficiently degraded by employing genetically engineered bacteria? \begin{choices} \choice PE \choice PP \choice PS \choice PVC \choice PET \end{choices} -->