L
Lu Han
Researcher at Tongji University
Publications - 137
Citations - 3931
Lu Han is an academic researcher from Tongji University. The author has contributed to research in topics: Chemistry & Mesoporous material. The author has an hindex of 32, co-authored 113 publications receiving 2903 citations. Previous affiliations of Lu Han include Shanghai Jiao Tong University & Stockholm University.
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Journal ArticleDOI
Nanosheet-constructed porous TiO2-B for advanced lithium ion batteries.
TL;DR: Hierarchical porous TiO(2)-B with thin nanosheets with joint advantages endow this material with high reversible capacity, excellent cycling performance, and superior rate capability.
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An Overview of Materials with Triply Periodic Minimal Surfaces and Related Geometry: From Biological Structures to Self-Assembled Systems.
Lu Han,Shunai Che +1 more
TL;DR: Research achievements, including theoretical and experimental discoveries, in both biological systems and the artificial synthesis of materials with triply periodic minimal surface structures and related materials are summarized.
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π–π interaction of aromatic groups in amphiphilic molecules directing for single-crystalline mesostructured zeolite nanosheets
Dongdong Xu,Yanhang Ma,Zhifeng Jing,Lu Han,Bhupendra Kumar Singh,Ji Feng,Xuefeng Shen,Fenglei Cao,Peter Oleynikov,Huai Sun,Osamu Terasaki,Shunai Che +11 more
TL;DR: A concept for designing a single quaternary ammonium head amphiphilic template with strong ordered self-assembling ability through π-π stacking in hydrophobic side, which stabilizes the mesostructure to form single-crystalline mesostructured zeolite nanosheets.
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Synthesis of chiral TiO 2 nanofibre with electron transition-based optical activity
Shaohua Liu,Lu Han,Yingying Duan,Shunsuke Asahina,Osamu Terasaki,Osamu Terasaki,Yuanyuan Cao,Ben Liu,Liguo Ma,Jia-Liang Zhang,Shunai Che +10 more
TL;DR: The synthesis of chiral TiO2 fibres via transcription of the helical structure of amino acid-derived amphiphile fibres through coordination bonding interactions between the organics and theTiO2 source is reported.
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Confined Ultrathin Pd‐Ce Nanowires with Outstanding Moisture and SO2 Tolerance in Methane Combustion
Honggen Peng,Honggen Peng,Cheng Rao,Ning Zhang,Xiang Wang,Wenming Liu,Wenting Mao,Lu Han,Pengfei Zhang,Pengfei Zhang,Sheng Dai,Sheng Dai +11 more
TL;DR: An efficient strategy (enhanced metal oxide interaction and core-shell confinement to inhibit the sintering of noble metal) is presented confined ultrathin Pd-CeOx nanowire (2.4 nm) catalysts for methane combustion, which enable CH4 total oxidation at a low temperature of 350 °C, much lower than that of a commercial Pd/Al2 O3 catalyst.