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武汉大学张海波
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论文成果
[1].
Deformation Behavior of Eutectic Gallium−Indium under Electric Fields.
Journal of Chemical Education.
101 (2). 693-700. 2024.
[2].
Coupling Au with BO x matrix induced by Closo-boron cluster for electrochemical synthesis of amm....
Journal of Energy Chemistry.
2024.
[3].
Platinum group nanoparticles Doped BCN matrix: Efficient catalysts for the electrocatalytic reduc....
Journal of Colloid And Interface Science.
2024.
[4].
A new strategy for boron cluster-based metal boride (Co2B) synthesis and its applicability to ele....
Chemical Engineering Journal.
485. 149639. 2024.
[5].
NiPdMo nanoparticles reduced by Cs[closo-B 6 H 7 ] as high-performance catalysts for hydrogen gen....
International Journal of Hydrogen Energy.
60. 451-457. 2024.
[6].
Synthesis of iron-boride/carbon-nitride composites and their applications in chemodynamic therapy.
Journal of Colloid and Interface Science.
658. 276-285. 2023.
[7].
Engineering different B doping modes on Ru active sites for efficient alkaline hydrogen evolution.
Journal of Materials Chemistry A.
2023.
[8].
Applications of Boron Cluster Supramolecular Frameworks as Metal-Free Chemodynamic Therapy Agents....
Small.
2023.
[9].
High Faraday efficiency of Cu 1 Co 1 -BCN based on a dodecahydro-closo-dodecaborate hybrid for el....
Journal of Materials Chemistry A.
(11). 20234-20241. 2023.
[10].
Selective oxidation of anilines to azobenzenes by an Ag nanoparticles photocatalyst.
Colloids and Surfaces A: Physicochemical and Engineering Aspects.
2023.
[11].
Performance and mechanism of ammonia production by electrocatalytic nitrate reduction based on Do....
Journal of Colloid and Interface Science.
Volume 652. 945-951. 2023.
[12].
Strong metal-support interactions for high sintering resistance of Ru-based catalysts toward HER ....
Chemical Communications.
59. Chem. Commun., 2023,59, 10291-10294. 2023.
[13].
Magnetic Gold Catalysts Obtained by Sequential Preparation for Highly Efficient Catalytic Reducti....
Colloids and Surfaces A: Physicochemical and Engineering Aspects.
2023.
[14].
Shape-controlled preparation of nano gold (Au), Au clusters, and Au single atoms based on layered....
Chemical Engineering Journal.
https://doi.org/10.1016/j.cej.2023.143540. 2023.
[15].
Overcoming the PCBM/Ag Interface Issues in Inverted Perovskite Solar Cells by Rhodamine-Functiona....
Adv. Funct. Mater..
10.1002/adfm.202300396. 2023.
[16].
Fluorinated MXene Accelerates the Hydrogen Evolution Activity of in-situ Induced Snowflake-like N....
Journal of Materials Chemistry A.
2023.
[17].
Electron Modulation and Morphology Engineering Jointly Accelerate Oxygen Reaction to Enhance Zn‐....
Advanced Science.
2023.
[18].
Atom-dispersed Au combined with Nano-Au on Halloysite Nanotubes with Closo-dodecaborate promotes ....
Journal of Materials Chemistry A.
(11,). 809-817. 2023.
[19].
Self-assembly synthesis of Ru nanoparticles anchored on B, N co-doping carbon support for hydroge....
International Journal of Hydrogen Energy.
2023.
[20].
Fast room-temperature hydrogenation of nitroaromatics on Pd nanocrystal-boron cluster/graphene ox....
Molecular Catalysis.
2022.
[21].
Organic polymers combining boron cluster and triazine: an ultra-efficient adsorption separator to....
ChemNanoMat.
8. e20210048. 2022.
[22].
Efficient Degradation of Health-threatening Organic Pollutants in Water by Atomically Dispersed C....
Chemical Engineering Journal.
2022.
[23].
Cu Nanoparticle-Decorated Boron-Carbon-Nitrogen Nanosheets for Electrochemical Determination of C....
ACS Appl Mater Interfaces.
14 (25). 28956–28964. 2022.
[24].
Atom-dispersed copper and nano-palladium in the boron-carbon-nitrogen matric cooperate to realize....
Journal of Hazardous Materials.
434. 128909. 2022.
[25].
Au/Boron organic frameworks for efficient removal and degradation of azo dye pollutants.
Colloids and Surfaces A: Physicochemical and Engineering Aspects.
646. 128884. 2022.
[26].
Chaotropic Effect Stabilized Radical-Containing Supramolecular Organic Frameworks for Phototherma....
Small.
202108055. 2022.
[27].
Boron-induced activation of Ru nanoparticles anchored on carbon nanotubes for the enhanced pH-ind....
Journal of Colloid and Interface Science.
616. 338-346. 2022.
[28].
Two-dimensional BCN matrix inlaid with single-atom-Cu driven electrochemical nitrate reduction re....
Applied Materials Today.
25. doi.org/10.1016/j.apmt.2021.101206. 2021.
[29].
Comprehensive Understanding of the Thriving Ambient Electrochemical Nitrogen Reduction Reaction.
Advanced Materials.
2021.
[30].
Supramolecular Nanosheet evolution into BC3N matrix improves the hydrogen evolution reaction acti....
Journal of Materials Chemistry A.
2021 (9). 16427-16435. 2021.
[31].
Direct conversion of methane into methanol and ethanol via spherical Au@Cs2[closo-B12H12]and Pd@C....
International Journal of Hydrogen Energy.
2021.
[32].
Copper confined in vesicle-like BCN cavity promotes electrochemical reduction of nitrate to ammon....
J. Mater. Chem. A,.
2021.
[33].
Boron modulating electronic structure of FeN4C to initiate high-efficiency oxygen reduction react....
Journal of Energy Chemistry.
2021.
[34].
Persistent radical pairs trigger nano-gold to highly efficiently and highly selectively drive the....
Chem Catalysis.
2021.
[35].
Two-dimensional BCN matrix inlaid with single-atom-Cu driven electrochemical nitrate reduction re....
Applied Materials Today.
2021.
[36].
Simultaneous anchoring of Ni nanoparticles and single-atom Ni on BCN matrix promotes efficient co....
Chemical Engineering Journal.
2021.
[37].
Progress in three-dimensional aromatic-like closo-dodecaborate.
Coordination Chemistry Reviews.
2021 (444). 214042. 2021.
[38].
Efficient Ambient Electrocatalytic Ammonia Synthesis by Nano-gold Triggered via Boron Clusters Co....
ACS Appl. Mater. Interfaces.
2020.
[39].
BCN Encapsulated Nano-nickel Synergistically Promotes Ambient Electrochemical Dinitrogen Reductio....
ACS Appl. Mater. Interfaces.
12 (28). 31419–31430. 2020.
[40].
Potassium Ions Promote Electrochemical Nitrogen Reduction on Nano-Au Catalysts Triggered by Bifun....
Journal of Materials Chemistry A.
(8). Journal of Materials Chemistry A. 2020.
[41].
High-dispersion Ultrafine Shell-like Nano-Pt with Efficient Hydrogen Evolution Evolved via Metal ....
Journal of Materials Chemistry A.
(8). 7171 - 7176. 2020.
[42].
Cubic platinum nanoparticles capped with Cs2[closo-B12H12] as an effective oxidation catalyst for....
Journal of Colloid and Interface Science.
566. 135-142. 2020.
[43].
Hydrophobic Boron Organic Polymers: Ultra-high Capacity of Enrichment and Storage for Chloroform.
Chemical Engineering Journal.
385. 2020.
[44].
Transformation from 3D Boron Organic Polymers to 1D Nano-rod Arrays: Loading High Dispersed Nano-....
ACS Applied Materials & Interface.
11 (46). 43214-43222. 2019.
[45].
In-situ Nano Au Triggered via Metal Boron Organic Polymers: Efficient Electrochemistry N2 Fixatio....
J. Mater. Chem. A,.
2019.
[46].
Shape-controlled Dodecaborate Supramolecular Organic Frameworks Supported Ultrafine Trimetallic P....
ACS Applied Materials & Interfaces..
2019.
[47].
Self-Assembled Magnetic Pt Nanocomposites for the Catalytic Reduction of Nitrophenol.
ACS Applied Nano Materials.
2019.
[48].
From Boron Organic Polymers to In-situ Ultrafine Nano Pd and Pt: Green Synthesis and Application ....
ChemcatChem.
2019.
[49].
An efficient morpholinium ionic liquid based catalyst system for cycloaddition of CO2 and epoxide....
Journal of Molecular Liquids.
283. 235-241. 2019.
[50].
In situ synthesis of ultrafine metal clusters triggered by dodecaborate supramolecular organic fr....
Nanoscale.
(10). 19846 – 19853. 2018.
[51].
Self-assembled magnetic gold catalysts via dual-functional boron clusters.
ChemCatChem.
10. 2285 – 2290. 2018.
[52]. 张海波
From boron clusters to gold clusters: new label-free colorimetric sensors. Chemical Communication....
Chem Comm.
53 (86). 11790-11793. 2017.
[53].
Orthogonal Molecular Recognition of Chaotropic and Hydrophobic Guests Enables Supramolecular Arch....
ChemNanoMat.
2018.
[54].
Facile Synthesis of Boron Organic Polymers for Efficient Removal and Separation of Methylene Blue....
ACS Sustainable Chemistry & Engineering.
2018.
[55].
Influence of the protonation state on the binding mode of methyl orange with cucurbiturils.
Journal of Molecular Structure.
1107. 182-188. 2016.
[56].
Deep eutectic solvent choline chloride2CrCl6HO: an efficient catalyst for esterification of formi....
RSC Advances.
(6). 21612-21616. 2016.
[57].
A novel two-dimensional polyrotaxane network self-assembled by heterowheel [4]pseudorotaxane..
Supramolecular Chemistry.
29 (3). 176-182.. 2016.
[58].
Supramolecular self‐assembly of cucurbit[6]uil and ionic liquid in non‐aqueous system.
Chinese Journal of Chemistry.
33 (5). 413-417. 2016.
[59]. 张海波
A Bronsted acidic ionic liquid as an efficient and reusable catalyst system for esterification.
GREEN CHEMISTRY.
9 (11). 2007.
[60]. 张海波
具有表面活性的新型绿色离子液体.
中国科学. B辑, 化学.
36 (1006-9240). 2006.
[61]. 张海波
离子液体的制备与性质表征——介绍一个综合化学实验.
大学化学.
(1000-8438). 2011.
[62]. 张海波
葫芦[7]脲的合成及其与甲基橙的超分子行为研究——综合性研究型实验设计.
大学化学.
(1000-8438). 2013.
[63].
The chaotropic effect as an orthogonal assembly motif for multi-responsive dodecaborate-cucurbit[....
Chem Comm.
54:. 2098-2101. 2018.
[64].
Br?nsted酸性离子液体催化合成乙酸丁酯的化学动力学研究——一个物理化学综合实验.
大学化学.
(1000-8438). 2015.
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