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  • Three models to encapsulate multi-component dyes into nanocrystal pores: a new strategy for generating high quality white light

    Liu, X.-Y., Xing, K., Li, Y., Tsung, C.-K.*, Li, J.*. Journal of the American Chemical Society, 2019, 141, 37, 14807-14813

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  • Strongly luminescent inorganic–organic hybrid semiconductors with tunable white light emissions by doping

    Liu, W., Banerjee, D., Lin. F., Li, J.*. Journal of Materials Chemistry C. 2019, 7, 1484-1490.

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  • Tuning the Channel Size and Structure Flexibility of Metal−Organic Frameworks for the Selective Adsorption of Noble Gases

    Yu, L., Xiong, S., Lin, Y., Li, L., Peng, J., Liu, W., Huang, X., Wang, H.*, Li, J.*. Inorganic Chemistry.2019, 58, 22, 15025-15028.

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  • Luminescent inorganic-organic hybrid semiconductor materials for energy-saving lighting applications

    Liu, W., Lustig, W.P., Li, J.*. EnergyChem. 2019, 1, 100008

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  • Blue-Light-Excitable, Quantum Yield Enhanced, Yellow-Emitting, Zirconium-Based Metal−Organic Framework Phosphors Formed by Immobilizing Organic Chromophores

    Yu, L., Wang, H.*, Liu, W., Teat, S. J., Li, J.*. Crystal Growth & Design. 2019, 19, 6850-6854.

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  • A Robust Multifunctional Eu6‑Cluster Based Framework for Gas Separation and Recognition of Small Molecules and Heavy Metal Ions

    Hu, F., Di, Z., Wu, M., Hong, M.*, Li, J.*. Crystal Growth & Design. 2019, 19, 6381-6387.

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  • Encapsulation of yellow phosphors into nanocrystalline metal–organic frameworks for blue-excitable white light emission

    Liu, X.-Y., Li, Y., Tsung, C.-K., Li, J.*. Chemical Communications, 2019, 55, 10669-10672.

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  • Designer Metal–Organic Frameworks for Size-Exclusion-Based Hydrocarbon Separations: Progress and Challeng

    Wang. H., Liu. Y., Li. J.*. Advanced Materials 2020, 2002603.

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  • Splitting Mono- and Dibranched Alkane Isomers by a Robust Aluminum-Based Metal–Organic Framework Material with Optimal Pore Dimensions

    Yu, L.; Dong, X.; Gong, Q.; Acharya, S. R.; Lin, Y.; Wang, H.*; Han, Y.; Thonhauser, T.; Li, J*. Journal of the American Chemical Society 2020, 142, 6925-6929.

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  • Functionalizing luminescent metal-organic framework for enhanced photoluminescence

    Liu, X.-Y.#, Lusting, W. P.#, Li, J.*. ACS Energy Letters, 2020, 5, 8, 2671-2680.

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  • Predicting Nitrogen-Based Families of Compounds: Transition-Metal Guanidinates TCN3 (T= V, Nb, Ta) and Ortho-Nitrido Carbonates T’2CN4 (T’ = Ti, Zr, Hf)

    Luo. D., Qiao. X., Dronskowski. R.*. Angewandte Chemie International Edition 2020, 59,

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  • Encapsulation of a Porous Organic Cage into the Pores of a Metal– Organic Framework for Enhanced CO2 Separation

    Liang. J., Nuhnen. A., Millan. S., Breitzke. H., Gvilava. V., Buntkowsky. G. Janiak. C.*. Angewandte Chemie International Edition 2020, 59, 6068-6073.

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  • Blending Ionic and Coordinate Bonds in Hybrid Semiconductor Materials: A General Approach toward Robust and SolutionProcessable Covalent/Coordinate Network Structures

    Hei. X.#, Liu. W.#, Zhu. K., Teat. S. J., Jensen. S., Li. M., O'Carroll. D. M., Wei. K., Tan. K., Cotlet. M., Thonhauser. T., Li. J.*. Journal of American Chemical Society 2020, 142, 4242-4253.

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  • Radical Dehydroxylative Alkylation of Tertiary Alcohols by Ti Catalysis

    Xie H.#, Guo. J.#. Wang. Y.-Q., Wang. K., Guo. P., Su. P.-F., Wang. X.*, Shu. X.-Z.*. Journal of American Chemical Society 2020, 142, 16787-16794.

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  • Ternary ZIF-8-derived dual-metal CoCu nanoparticles in porous carbon polyhedra as efficient catalysts for methanol oxidation

    Tang. C., Asefa. T.*. Journal of Materials Chemistry A 2020, 8, 12285-12290

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  • A chemically stable cucurbit[6]uril-based hydrogen-bonded organic framework for potential SO2/CO2 separation

    Liang. J., Xing. S., Brandt. P., Nuhnen. A., Schlusener. C., Sun. Y., Janiak C.*. Journal of Materials Chemistry A 2020, 8, 19799-19804.

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  • A mechanistic study of mesoporous TiO2 nanoparticle negative electrode materials with varying crystallinity for lithium ion batteries

    Deng. C.*, Lau. M., Ma. C., Skinner. P., Liu. Y., Xu. W., Zhou. H., Zhang. X., Wu. D., Yin. Y., Ren. Y., Perez. J., Jaramillo. D., Barnes. P., Hou. D., Dahl. M., Williford. B., Zheng. C., Xiong. H.*. Journal of Materials Chemistry A 2020, 8, 3333-3343.

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  • A Facile Route to Efficient Water Oxidation Electrodes via Electrochemical Activation of Iron in Nickel Sulfate Solution

    Liu. S., Zhang. J., Wang. H., Asefa. T.*, Huang. X.*. ACS Sustainable Chemistry & Engineering 2020, 8, 15550-15559.

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  • Mechanism of Cobalt-Catalyzed Direct Aminocarbonylation of Unactivated Alkyl Electrophiles: Outer-Sphere Amine Substitution To Form Amide Bond

    Guo. J., Pham. H. D., Wu. Y.-B., Zhang. D., Wang. X.*. ACS Catalysis 2020, 10, 1520-1527.

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  • Improved Organic Solar Cell Efficiency based on Regulation of Alkyl Chain on Chlorinated Non-fullerene Acceptors

    Yu. H., Ma. R., Xiao. Y., Zhang. J., Liu. T., Luo. Z., Chen. Y., Bai. F., Lu. X., Yan. H., Lin. H.*. Materials Chemistry Frontiers 2020, 4, 2428-2434.

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