文章列表

2025

[1]              Y. Zhang, Y. Fang, X. Liu, Crown ether decorated polyamide membranes for efficient electrodialytic separation of lithium isotopes, Under review.

[2]              Y. Luo, Y. Ding, X. Zhu, M. He, W. Shi, X. Ding, X. Liu, Amphiphilic polyaromatic hydrocarbon assisted synthesis of amorphous coordination polymer monolayer on water surface for He/CH4 separation, Under review.

[3]              X. Liu, D. Calvani, C. Leist, M. Makurat, A. Melcrová, M. He, D. Scholma, G. J. A. Sevink, F. Buda, Y. Hermans, J. P. Hofmann, H. Qi, X. Feng, W. H. Roos, U. Kaiser, G. F. Schneider, Monolayer nanocrystalline graphene synthesized from pyrolyzing a Langmuir monolayer of a polyaromatic hydrocarbon, Under review.

[4]              M. He, X. Zhu, Y. Ding, L. Wang, Y. Luo, X. Ding, X. Liu, Efficient N2/SF6 separation via intermolecular transient pores in polyaromatic hydrocarbons assembled monolayer prepared by a simple Langmuir–Schaefer approach, Under review.

[5]              Y. Ding, X. Zhu, Y. Luo, L. Wang, M. He, X. Ding, W. Shi, X. Liu, Freestanding non-covalent nanoporous monolayers via interfacial assembly of porous organic cages for selective N2/SF6 separation, Under review.

[6]              Y. Ding, M. He, J. Lan, F. Liu, D. Calvani, J. Wang, X. Zhu, Y. Luo, L. Wang, P. Lin, Y. Du, J. Sun, X. Ding, W. Shi, X. Liu, Bio-inspired construction of polymer monolayers with high-density nanopores and tunable functionality for osmotic power generation, Under review.

[7]              W. Zhang, M. Makurat, X. Liu, X. Kang, X. Liu, Y. Li, T. J. F. Kock, C. Leist, C. Maheu, H. Sezen, L. Jiang, D. Calvani, A. Jiao, I. Eren, F. Buda, A. Kuc, T. Heine, H. Qi, X. Feng, J. P. Hofmann, U. Kaiser, L. Sun, Z. Liu, G. F. Schneider, Giant proton transmembrane transport through sulfophenylated graphene in a direct methanol fuel cell, Nature Communications 2025, just accepted.

[8]              J. Wang, Y. Ding, L. Wang, Y. Luo, X. Zhu, Y. Zhang, X. Ding, M. He, W. Shi, X. Liu, Membrane separation of krypton and xenon, Separation and Purification Technology 2025, 366, 132781.

[9]              J. Wang, Y. Ding, M. He, X. Ding, X. Liu, W. Shi, Direct preparation of ultrathin polymer membranes on porous substrates for the separation of helium from methane, Small 2025, 21, 2406440.

[10]           Y. Fang, R. Ha, J. Sun, X. Liu, X. Ding, W. Shi, Research progress on lithium isotopes separation by chemical exchange with crown ethers decorated materials, Green Energy & Environment 2025, 10, 441-451.

2024

[11]           J. Wang, L. Mi, M. He, Y. Du, X. Ding, J. Lan, W. Shi, X. Liu, A N-heterocyclics induced π-π interaction strategy to synthesis hyper-crosslinked polymers with enhanced porosity for xenon adsorption, Separation and Purification Technology 2024, 357, 130157.

[12]           C. Leist, M. Makurat, A. Jiao, X. Liu, G. F. Schneider, U. Kaiser, Control of Grain Boundary Formation in Atomically Resolved Nanocrystalline Carbon Monolayers: Dependence on Electron Energy, Microscopy and Microanalysis 2024, 31, ozae101.

[13]           M. He, X. Zhu, Z. Chen, C. Wang, L. Mi, Y. Shang, J. Zheng, C. Xiang, H. Song, X. Liu, Epitaxial growth of multicolor lanthanide MOFs by ultrasound for photonic barcodes, ACS Applied Materials & Interfaces 2024, 16, 60884-60889.

[14]           M. He, Y. Ding, X. Liu, Nanoporous amorphous carbon monolayer derived from fullerene film, advanced science 2024, 11, 2308187.

[15]           Y.-Z. Han, Y.-C. Liu, J.-H. Lan, Y.-L. Liu, C.-Z. Wang, Q.-Y. Wu, X.-D. Ding, X. Liu, A. O. Khudorozhkova, M. V. Laptev, Y. P. Zaikov, W.-Q. Shi, Development of neural network potentials for studying chemical behaviors of La3+/Nd3+ ions in molten LiCl–KCl–CsCl in combination with raman spectroscopy, The Journal of Physical Chemistry B 2024, 128, 11186-11196.

[16]           Y. Fang, Y. Han, J. Wang, Y. Ding, M. He, J. Lan, X. Ding, W. Shi, X. Liu, Calix[4]arene-decorated polymers of intrinsic microporosity for lithium isotopes separation, Chemical Engineering Journal 2024, 500, 156916.

[17]           M. Du, C. Wang, X. Liu, X. Ding, C. Xiang, Morphological insights into uncompetitive fluorescence of coal-based carbon dots and strategies for improvement, Carbon 2024, 228, 119396.

2023

[18]           蓝. 韩逸之, 刘学, 石伟群, 基于机器学习势函数的熔盐体系分子动力学研究进展, 化学学报 2023, 81, 1663-1072.

[19]           J. Li, J. Lan, R. Cao, J. Sun, X. Ding, X. Liu, L. Yuan, W. Shi, Water-mediated hydrogen bond network drives highly crystalline structure formation of crown ether-based covalent organic framework for Sr adsorption, ACS Applied Materials & Interfaces 2023, 15, 59544-59551.

[20]           R. Ha, F. Liu, J. Li, M. He, J. Lan, B. Wang, J. Sun, X. Liu, X. Ding, W. Shi, Calix[4]arene-decorated covalent organic framework conjugates for lithium isotope separation, ACS Applied Materials & Interfaces 2023, 15, 5657-5666.

2022

[21]           P. Zhang, Y. Zhang, L. Wang, K. Qiu, X. Tang, J. K. Gibson, X. Liu, L. Mei, S. An, Z. Huang, P. Ren, Y. Wang, Z. Chai, W. Shi, Bioinspired macrocyclic molecule supported two-dimensional lamellar membrane with robust interlayer structure for high-efficiency nanofiltration, advanced science 2022, 2206516.

[22]           A. Van Der Ham, X. Liu, D. Calvani, A. Melcrová, M. Kozdra, F. Buda, H. S. Overkleeft, W. H. Roos, D. V. Filippov, G. F. Schneider, Freestanding non-covalent thin films of the propeller-shaped polycyclic aromatic hydrocarbon decacyclene, Nature Communications 2022, 13, 1920.

[23]           C. Leist, M. He, X. Liu, U. Kaiser, H. Qi, Deep-learning pipeline for statistical quantification of amorphous two-dimensional materials, ACS Nano 2022, 16, 20488-20496.

2020

[24]           X. Liu, M. He, D. Calvani, H. Qi, K. B. S. S. Gupta, H. J. M. De Groot, G. J. A. Sevink, F. Buda, U. Kaiser, G. F. Schneider, Power generation by reverse electrodialysis in a single-layer nanoporous membrane made from core–rim polycyclic aromatic hydrocarbons, Nature Nanotechnology 2020, 15, 307-312.

2019

[25]           A. Addala, M. Poupon, S. Bernès, G. S. Kürkçüoğlu, X. Liu, F. Lehchili, M. Kučeráková, M. Dušek, F. Setifi, Z. Setifi, J. Reedijk, Synthesis, structure and luminescence properties of zinc and cadmium linear-chain compounds with anionic monoalkoxy-tetracyanopropenes bridged by 4,4′-bipyridines, Polyhedron 2019, 170, 271-277.

2017

[26]           X. Liu, M. A. Siegler, M. Hilbers, E. Bouwman, Synthesis, structure and photoluminescence properties of lanthanoid coordination polymers based on tetra(3,5-dicarboxyphenoxymethyl)methane, Polyhedron 2017, 123, 1-8.

[27]           F. Lehchili, F. Setifi, X. Liu, A. Saneei, M. Kučeráková, Z. Setifi, M. Dušek, M. Poupon, M. Pourayoubi, J. Reedijk, The non-coordinating anion 1,1,3,3-tetracyano-2-propoxy-propenide as an anion-π donor in cis-diaquabis(2,2′-dipyridylamine)zinc and its cadmium analog: Luminescence properties, Hirshfeld analysis and central-atom induced polymorphism, Polyhedron 2017, 131, 27-33.

2016

[28]           X. Liu, M. A. Siegler, E. Bouwman, Ratiometric thermometer based on a lanthanoid coordination polymer, European Journal of Inorganic Chemistry 2016, 2016, 2984-2988.

[29]           X. Liu, A. González-Castro, I. Mutikainen, A. Pevec, S. J. Teat, P. Gamez, J. S. Costa, E. Bouwman, J. Reedijk, Zinc and cadmium halide compounds with the tridentate ligand 2-(methylsulfanyl)-N-(pyridin-2-ylmethylidene)aniline showing yellow luminescence, Polyhedron 2016, 110, 100-105.

[30]           X. Liu, W. Fu, E. Bouwman, One-step growth of lanthanoid metal–organic framework (MOF) films under solvothermal conditions for temperature sensing, Chemical Communications 2016, 52, 6926-6929.

[31]           X. Liu, E. Bouwman, Synthesis and photophysical properties of a highly luminescent EuIII-containing hybrid thin film, Polyhedron 2016, 118, 25-29.

[32]           R. A. Khan, F. Dielmann, X. Liu, F. E. Hahn, K. Al-Farhan, A. Alsalme, J. Reedijk, Tetrahedrally coordinated luminescent copper(I) compounds containing halide, phosphane and norharmane ligands, Polyhedron 2016, 111, 173-178.

[33]           M. Jaafar, X. Liu, F. Dielmann, F. E. Hahn, K. Al-Farhan, A. Alsalme, J. Reedijk, Synthesis, structure and spectroscopic properties of bis(triphenylphosphane)iminium (chlorido)(cyanido)argentates(I), Inorganica Chimica Acta 2016, 443, 45-50.

[34]           M. He, Z. Chen, E. M. Pineda, X. Liu, E. Bouwman, M. Ruben, P. W. Roesky, Homoleptic chiral benzamidinate complexes of rare-earth elements: synthesis, structure, luminescence, and magnetism, European Journal of Inorganic Chemistry 2016, 2016, 5512-5518.

2015

[35]           X. Liu, S. Akerboom, M. D. Jong, I. Mutikainen, S. Tanase, A. Meijerink, E. Bouwman, Mixed-lanthanoid metal–organic framework for ratiometric cryogenic temperature sensing, Inorganic Chemistry 2015, 54, 11323-11329.

[36]           X. Liu, S. Akerboom, S. H. C. Askes, I. Mutikainen, E. Bouwman, A novel coordination network of Tb(III) with 2-hydroxy-trimesic acid showing very intense photoluminescence, Inorganic Chemistry Communications 2015, 61, 60-63.

[37]           A. Alsalme, M. Jaafar, X. Liu, F. Dielmann, F. E. Hahn, K. Al-Farhan, J. Reedijk, Synthesis, structure and spectroscopic properties of bis(triphenylphosphane)iminium (phenylacetylido)(cyanido)aurate(I) monoacetone monohydrate, (PPN)[Au(CN)(CCC6H5)]·H2O·(CH3)2CO and bis(triphenylphosphane)iminium (t-butylacetylido)(cyanido)aurate(I) monohydrate, (PPN)[Au(CN)(CCC4H9)]·H2O, Polyhedron 2015, 88, 1-5.