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1.Hybrid Nitrate-Water Cluster in the Hydrophobic Cavity of Cucurbit[8]uril,Chemical Physics Letters,2016,DOI: 10.1016/j.cplett.2016.03.020.
2.Encapsulation of alkyldiammonium ions within two different cavities of twisted cucurbit[14]uril,ChemicalCommunications,2016,52, 2589−2592.
3.Host−guest complexation of HMeQ[7] with alkyldiammonium ions and alkyldiamines: A comparative study,RSC Advances,2016,6, 11937−11942.
4.Host-guest complexation of di-cyclohexanocucurbit[6]uril and hexa-cyclohexano -cucurbit[6]uril with alkyldiammonium ions: A comparative study.Organic and Biomolecular Chemistry,2016, 14, 674−679.
5.The Binding Interactions between Cyclohexanocucurbit[6]uril and Alkyl Viologens Give Rise to a Range of Diverse Structures in the Solid and the Solution Phases,Journal of Organic Chemistry,2015,80, 10505−10511.
6.Mixed behavior ofp-phenylenediaminium guest binding with inverted cucurbit[6]uril host,Organic and Biomolecular Chemistry,2015, 13, 8330–8334.
7.Encapsulation of haloalkane 1-(3-Chlorophenyl)-4-(3-chloropropyl)-piperazinium in symmetrical α,α’,δ,δ’-tetramethyl-cucurbit[6]uril,Physical Chemistry Chemical Physics,2015,17, 8618–8621.
8.1,3-propanediammonium and 1,12-dodecanediammonium encapsulated in the cavity of symmetrical α,α’,δ,δ’-tetramethyl-cucurbit[6]uril,Supramolecular Chemistry,2015, 27,606–612.
9.Extended and contorted conformations of alkanediammonium ions in symmetrical α,α’,δ,δ’-tetramethyl-cucurbit[6]uril cavity,Journal of Organic Chemistry,2014,79, 11194–11198.
10.Self-assembly of cucurbit[8]uril-basedpolypseudorotaxanes using host–guest interactions,RSC Advances,2014,4, 53665–53668.
11.Assemblies of Alkaline Earth Metal Ions witho-tetramethyl Substituted Cucurbituril in the Presence of Cadmium Tetrachloride Anion,European Journal of Inorganic Chemistry,2014, 23, 5771–5776.
12.Cucurbituril Supramolecular Assemblies Formed in the Presence of Nitrate Cadmium: Potential Applications for Isolation of Heavier Lanthanides,CrystEngComm,2014, 16, 10674–10680.
13.Synthesis of a symmetrical octamethyl-substituted cucurbituril with a dimethyl-substituted glycoluril dimer,Tetrahedron,2014, 70, 800–804.
14.Anion Concentration Control in the Self-assembly of Symmetrical α,α’,δ,δ’-Tetramethyl-Cucurbit[6]uril-Based Tubular Architectures,RSC Advances,2014,4, 18323–18328.
15.Coordination of Pentacyclohexanocucurbit[5]uril with Alkali Metal Ions and Supramolecular Self-Assembly in the Absence and Presence of Inorganic Anions,European Journal of Inorganic Chemistry,2013, 22, 3632–3640.
16.Coordination Nanotubes Self-assembled From Cucurbit[7]uril and Lanthanide Cations,CrystEngComm,2013, 15, 3943–3950.
17.Coordination Complexes Based on Pentacyclopentanocucurbit[5]uril and Lanthanide(III) Ions: Lanthanide Contraction Effect Induced Structural Variation,CrystEngComm,2012, 14,6983–6989.
18.Inclusion of methylviologen in symmetrical α,α’,δ,δ’-tetramethyl-cucurbit[6]uril,RSC Advances,2012,2,7754–7758.
19.Metal-ion-induced self-assembly of closed/opened molecular capsule based on pentacyclopentanocucurbit[5]uril,RSC Advances,2012,2,5663–5668.
20.Homochiral 1D-Helical Coordination Polymers from Achiral Cucurbit[5]uril: Hydroquinone Induced Spontaneous Resolution.RSC Advances,2012,2, 3217–3220.
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