Publications by authors named "Rufeng Yang"
Article Synopsis
- The study introduces a new strategy for developing radical porous materials to efficiently capture fluorocarbons, which are powerful greenhouse gases.
- A specific material, CTF-azo-R, achieved a record-high fluorocarbon uptake capacity of 270 wt% due to the presence of stable radicals, enhancing its performance.
- CTF-azo-R also exhibits excellent chemical and thermal stabilities, making it suitable for real-world applications and paving the way for further advancements in fluorocarbon adsorbent technology.
Porous Organic Cage as an Efficient Platform for Industrial Radioactive Iodine Capture.
Angew Chem Int Ed Engl
October 2024
Herein, we firstly develop porous organic cage (POC) as an efficient platform for highly effective radioactive iodine capture under industrial operating conditions (typically ≥150 °C), ≤150 ppmv of I). Due to the highly dispersed and readily accessible binding sites as well as sufficient accommodating space, the constructed NKPOC-DT-(I) (NKPOC=Nankai porous organic cage) demonstrates a record-high I uptake capacity of 48.35 wt % and extraordinary adsorption capacity of unit ionic site (~1.
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