Hlib Repich
Northwestern Polytechnical University
6 Papers
4 Citations
Hlib Repich is an academic researcher from Northwestern Polytechnical University. The author has contributed to research in topics: Graphene & Lithium. The author has an hindex of 3, co-authored 6 publications.
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Papers
Facile regulation of carbon framework from the microporous to low-porous via molecular crosslinker design and enhanced Na storage
Fei Xu,Fei Xu,Haojie Han,Yuqian Qiu,En Zhang,Hlib Repich,Changzhen Qu,Huiwu Yu,Hongqiang Wang,Stefan Kaskel +9 more
TL;DR: In this article, an elaborate molecular crosslinker design in the polystyrene (PS) precursor was proposed for transforming the microporous carbon framework to the low porous one by an elaborate crosslinkers design in PS precursor, where direct coupling of benzene rings in PS via Scholl reaction yields hypercrosslinked PS-derived carbon with low porous framework.
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Edge-enriched MoS 2 for kinetics-enhanced potassium storage
TL;DR: In this paper, the edge-enriched planes (EE-MoS2) were used to enable exposure of enormous edge planes at pore walls, rendering its intrinsic layer spacing more accessible for K+ and accelerating conversion kinetics.
Recent progress on the design of hollow carbon spheres to host sulfur in room-temperature sodium–sulfur batteries
Jiaying Yang,Haojie Han,Hlib Repich,Ri-cheng Zhi,Changzhen Qu,Long Kong,Stefan Kaskel,Hongqiang Wang,Fei Xu,Hejun Li +9 more
TL;DR: In this article, a review summarizes the recent progress of hollow carbon spheres (HCSs)-based materials as the sulfur hosts in RT-Na/S batteries, focusing on manipulating the pore structure, heteroatom doping and metal species decoration with the aim to alleviate the "shuttle effect".
25
Porous Functionalized Covalent-Triazine Frameworks for Enhanced Adsorption Toward Polysulfides in Li-S Batteries and Organic Dyes.
Qianhui Liu,Shuhao Yang,Hlib Repich,Yixuan Zhai,Xiaosa Xu,Yeru Liang,Hejun Li,Hongqiang Wang,Fei Xu +8 more
TL;DR: Benefitting from the highly porous structure and amide functionalities, CTF-PO71, as a sulfur cathode host, simultaneously demonstrates physical confinement and chemical anchoring of sulfur species, thus leading to superior capacity, cycling stability, and rate capability in comparison to unfunctionalized CTF.