Porous organic polymers for CO 2 capture, separation and conversion
Porous organic polymers (POPs) have long been considered as prime candidates for
carbon dioxide (CO2) capture, separation, and conversion. Especially their permanent …
carbon dioxide (CO2) capture, separation, and conversion. Especially their permanent …
Porous polymers as multifunctional material platforms toward task‐specific applications
Exploring advanced porous materials is of critical importance in the development of science
and technology. Porous polymers, being famous for their all‐organic components, tailored …
and technology. Porous polymers, being famous for their all‐organic components, tailored …
Structural modulation of nitrogen-rich covalent organic frameworks for iodine capture
Developing efficient adsorbent materials for iodine scavenging is essential to mitigate the
threat of radioactive iodine causing adverse effects on human health and the environment …
threat of radioactive iodine causing adverse effects on human health and the environment …
Multifunctional ionic porous frameworks for CO 2 conversion and combating microbes
Porous organic frameworks (POFs) with a heteroatom rich ionic backbone have emerged as
advanced materials for catalysis, molecular separation, and antimicrobial applications. The …
advanced materials for catalysis, molecular separation, and antimicrobial applications. The …
Designed azo-linked conjugated microporous polymers for CO2 uptake and removal applications
AF Saber, KY Chen, AFM EL-Mahdy… - Journal of Polymer …, 2021 - Springer
In recent decade, conjugated microporous polymers (CMPs) were treated as one of the
superior porous materials for CO 2 uptake. Herein, we prepared two azo-linked CMPs …
superior porous materials for CO 2 uptake. Herein, we prepared two azo-linked CMPs …
Newly designed 1, 2, 3-triazole functionalized covalent triazine frameworks with exceptionally high uptake capacity for both CO 2 and H 2
The search for efficient and high performing physisorbents for CO2 capture and separation
from point sources as well as storage of cleaner gaseous fuels, such as H2 and/or CH4, is …
from point sources as well as storage of cleaner gaseous fuels, such as H2 and/or CH4, is …
Redox-active, pyrene-based pristine porous organic polymers for efficient energy storage with exceptional cyclic stability
A novel class of pyrene-based conjugated porous organic polymers having an N-containing
network was developed by employing Buchwald–Hartwig coupling for supercapacitor …
network was developed by employing Buchwald–Hartwig coupling for supercapacitor …
Connecting the Dots: Knitting C-Phenylresorcin[4]arenes with Aromatic Linkers for Task-Specific Porous Organic Polymers
Macrocyclic cavitands having aesthetically appealing architectures and excellent host–guest
complexation abilities exhibit a broad range of applications from molecular separation …
complexation abilities exhibit a broad range of applications from molecular separation …
An Upper Bound Visualization of Design Trade‐Offs in Adsorbent Materials for Gas Separations: CO2, N2, CH4, H2, O2, Xe, Kr, and Ar Adsorbents
The last 20 years have seen many publications investigating porous solids for gas
adsorption and separation. The abundance of adsorbent materials (this work identifies 1608 …
adsorption and separation. The abundance of adsorbent materials (this work identifies 1608 …
Fluorinated Iron (ii) clathrochelate units in metalorganic based copolymers: Improved porosity, iodine uptake, and dye adsorption properties
We report the synthesis of metalorganic copolymers made from the palladium catalyzed
Sonogashira cross-coupling reaction between various iron (II) clathrochelate building blocks …
Sonogashira cross-coupling reaction between various iron (II) clathrochelate building blocks …