University of Limerick Institutional Repository

Browsing Centres Science and Engineering by Author "Kumar, Amrit"

DSpace Repository

Browsing Centres Science and Engineering by Author "Kumar, Amrit"

Sort by: Order: Results:

  • Haikal, Rana R.; Hua, Carol; Perry, John J.; O'Nolan, Daniel; Syed, Imran; Kumar, Amrit; Chester, Adrian H.; Zaworotko, Michael J.; Yacoub, Magdi H.; Alkordi, Mohamed H. (American Chemical Society, 2017)
    Representative compounds from three classes of microporous solids, namely metal-organic frameworks (MOFs), hybrid ultramicroporous materials (HUMs) and porous-organic polymers (POPs), were investigated for their nitric ...
  • Zhu, Ai-Xin; Yang, Qing‐Yuan; Kumar, Amrit; Crowley, Clare M.; Mukherjee, Soumya; Chen, Kai-Jie; Wang, Shi-Qiang; O'Nolan, Daniel; Shivanna, Mohana; Zaworotko, Michael J. (American Chemical Society, 2018)
    We report a 2-fold interpenetrated primitive cubic (pcu) network X-pcu-5-Zn, [Zn2(DMTDC)2(dpe)] (H2DMTDC = 3,4-dimethylthieno[2,3-b]thiophene-2,5-dicarboxylic acid, dpe = 1,2-di(4-pyridyl)ethylene), that exhibits reversible ...
  • Kumar, Amrit (University of Limerick, 2018)
    Global atmospheric CO2 levels are currently 409 ppm, an increase of 130 ppm since the pre-industrial era. Efficient mitigation strategies combined with advanced carbon capture technologies are required to address this ...
  • Chen, Kai-Jie; Yang, Qing‐Yuan; Sen, Susan; Madden, David G.; Kumar, Amrit; Pham, Tony; Forrest, Katherine A.; Hosono, Nobuhiko; Space, Brian; Kitagawa, Susumu; Zaworotko, Michael J. (Wiley VCH, 2018)
    Removal of CO2 from CO gas mixtures is a necessary but challenging step during production of ultra‐pure CO as processed from either steam reforming of hydrocarbons or CO2 reduction. Herein, two hybrid ultramicroporous ...
  • O'Nolan, Daniel; Madden, David G.; Kumar, Amrit; Chen, Kai-Jie; Pham, Tony; Forrest, Katherine A.; Patyk-Kaźmierczak, Ewa; Yang, Qing‐Yuan; Murray, Claire A.; Tang, Chiu C.; Space, Brian; Zaworotko, Michael J. (Royal Society of Chemistry, 2018)
    Phases of a 2‐fold pcu Hybrid Ultramicroporous Material (HUM), SIFSIX‐14‐Cu‐i, exhibiting 99%, 93%, 89%, and 70% partial interpenetration have been obtained. 1:99 C2H2/C2H4 gas separation studies reveal that as the ...

Search ULIR


My Account