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1.
树脂担载金催化苯胺衍生物氧化羰化制氨基甲酸甲酯 总被引:7,自引:0,他引:7
树脂类高聚物担载的各种过渡金属和贵金属催化剂在加氢、选择氧化、聚合、氢甲酰化等反应中已有应用^[1,2],金催化剂作为一种新型的催化材料正日益引起人们的重视。继无机氧化物担载金催化剂得到广泛使用后^[3-7],有机金催化下的醇醛缩合^[8]、烯烃羧化^[9]以及锡烷偶联^[10]等反应的效果亦很好。最近,我们将有机金配合物催化剂用于胺类化合物氧化羰化制取氨基甲酯的反应^ [11],结果很好。但该均相催化体系仍存在催化剂分离回收和重复使用困难等问题。我们将金担载于各种高聚物上并用于苯胺及其衍生物的氧化羰化时,发现使用大孔弱酸性阳离子交换树脂作为催化剂载体对该反应的活性很高。相对于以往广泛研究的钯、钌、铑等的各种配合物加助催化组分催化剂体系^[12-14],这一体系简单、高效、易分离,且能够重复使用。 相似文献
2.
Mengyuan Ge Guangwen Li Zibo Ni Ning Liu Yushan Liu Yuzhou Liu 《Journal of polymer science. Part A, Polymer chemistry》2020,58(21):3009-3017
Utilizing collective forces between reactant and multiple catalyst molecules has been unprecedented due to the difficulty in realizing high order catalysis. Inspired by the power of collective forces in enzymes and organic catalysts, herein we report a rare example of high order catalysis for ring opening reaction (ROR) of strained rings by methanol. ROR is an important way to produce various polysiloxanes, but usually suffers from serious side reactions especially at high conversion, and currently there is a need to design new reaction pathway to achieve low molecular dispersity. In our study, the judiciously designed strained spiral cyclosiloxanes enable a high order catalysis by methanol, and this new methodology leads to a cyclic polysiloxane with high molecular weight and low dispersity even at full conversion of reactants. Kinetic study indicates an extremely unusual high-order reaction involving multiple methanol molecules per reaction, also confirmed by quantum calculation which reveals the presence of zwitterionic ions stabilized by collecting force of hydrogen bonds by methanol molecules. The inherent driving force for this unusual phenomenon is dominated by enthalpy stabilization of the reactive intermediates through hydrogen bonding. The selective formation of Si O Si bonds, instead of silanol products, reflects the power of scientific design. 相似文献
3.
Enzymetically Regulating the Self‐Healing of Protein Hydrogels with High Healing Efficiency 下载免费PDF全文
Dr. Yuzhou Gao Prof. Quan Luo Shanpeng Qiao Liang Wang Prof. Zeyuan Dong Jiayun Xu Prof. Junqiu Liu 《Angewandte Chemie (International ed. in English)》2014,53(35):9343-9346
Enzyme‐mediated self‐healing of dynamic covalent bond‐driven protein hydrogels was realized by the synergy of two enzymes, glucose oxidase (GOX) and catalase (CAT). The reversible covalent attachment of glutaraldehyde to lysine residues of GOX, CAT, and bovine serum albumin (BSA) led to the formation and functionalization of the self‐healing protein hydrogel system. The enzyme‐mediated protein hydrogels exhibit excellent self‐healing properties with 100 % recovery. The self‐healing process was reversible and effective with an external glucose stimulus at room temperature. 相似文献
4.
Dr. Yuzhou Wu Prof. Dr. Fedor Jelezko Prof. Dr. Martin B Plenio Prof. Dr. Tanja Weil 《Angewandte Chemie (International ed. in English)》2016,55(23):6586-6598
The currently available techniques for molecular imaging capable of reaching atomic resolution are limited to low temperatures, vacuum conditions, or large amounts of sample. Quantum sensors based on the spin‐dependent photoluminescence of nitrogen‐vacancy (NV) centers in diamond offer great potential to achieve single‐molecule detection with atomic resolution under ambient conditions. Diamond nanoparticles could also be prepared with implanted NV centers, thereby generating unique nanosensors that are able to traffic into living biological systems. Therefore, this technique might provide unprecedented access and insight into the structure and function of individual biomolecules under physiological conditions as well as observation of biological processes down to the quantum level with atomic resolution. The theory of diamond quantum sensors and the current developments from their preparation to sensing techniques have been critically discussed in this Minireview. 相似文献
5.
Fabrication of Defined Polydopamine Nanostructures by DNA Origami‐Templated Polymerization 下载免费PDF全文
Yu Tokura Sean Harvey Chaojian Chen Prof. Dr. Yuzhou Wu Dr. David Y. W. Ng Prof. Dr. Tanja Weil 《Angewandte Chemie (International ed. in English)》2018,57(6):1587-1591
A versatile, bottom‐up approach allows the controlled fabrication of polydopamine (PD) nanostructures on DNA origami. PD is a biosynthetic polymer that has been investigated as an adhesive and promising surface coating material. However, the control of dopamine polymerization is challenged by the multistage‐mediated reaction mechanism and diverse chemical structures in PD. DNA origami decorated with multiple horseradish peroxidase‐mimicking DNAzyme motifs was used to control the shape and size of PD formation with nanometer resolution. These fabricated PD nanostructures can serve as “supramolecular glue” for controlling DNA origami conformations. Facile liberation of the PD nanostructures from the DNA origami templates has been achieved in acidic medium. This presented DNA origami‐controlled polymerization of a highly crosslinked polymer provides a unique access towards anisotropic PD architectures with distinct shapes that were retained even in the absence of the DNA origami template. 相似文献
6.
7.
催化褪色光度法测定痕量钴的研究 总被引:15,自引:2,他引:15
研究了在PH10.5的Na2B4O7-NaOH介质中,痕量钴(Ⅱ)对过氧化氢氧化桑色素初色反应的催化作用,建立了催化动力学光度法测定痕量钴的新方法。方法的线性范围为0-1.2μ/mL检出限为4.4*10^-18g/L。用于水和维生素B12中钴的测定,结果满意。 相似文献
8.
常压下电化学催化羰化直接合成异氰酸酯 总被引:2,自引:0,他引:2
近 2 0多年来 ,异氰酸酯的非光气合成方法一直受到人们的关注 [1] .采用 CO与硝基化合物羰化直接合成相应的异氰酸酯在理论上完全可行 [2 ] ,但由于异氰酸酯本身在所采用的高温、高压反应条件下很不稳定 ,实际产率很低 ,CO在醇存在下与硝基化合物催化还原羰化 [3 ,4 ] ,或与有机胺在氧气存在下催化氧化羰化 [5,6] 生成相应的化学性质较稳定的氨基甲酸酯 ,再将氨基甲酸酯通过高温热裂解生成异氰酸酯[7,8] .该反应在高温、高压下进行 ,条件较苛刻 ,因此探索在较温和的条件下实现直接合成异氰酸酯的途径是目前该领域中很具有挑战性的研究课题… 相似文献
9.
Renhui Zhang Qiao Zhang Yuzhou Luo Ruolin Wu Longcheng Li 《Surface and interface analysis : SIA》2023,55(1):82-87
In this work, the tribological performance of mixed lubricant consisting of phenol and benzyl alcohol between YG8 self-mated interfaces was systematically investigated under 98 N and 1450 rpm. The results showed that with increasing concentration of phenol in the mixed lubricant, the friction coefficient initially decreases and then increases; however, anti-wear performance initially was enhanced and then weaken. As the concentration of phenol was 1.0 wt.%, the tribo-system exhibited the lowest friction coefficient and wear scar diameter. TEM, SEM and XPS techniques were employed to probe the possible tribological mechanism sliding in the mixed lubricant containing 1.0 wt.% of phenol. The phenol effectively slowed down the oxidation of the mixed lubricant, combination of friction-induced tungsten oxides and carbon quantum dots, assuring the tribo-system still in mixed lubrication condition, which made the tribo-system maintain low friction coefficient and wear. 相似文献
10.
Dehua Dong Jianfeng Yao Yuzhou Wu Xinyi Zhang Gengsheng Xu Chun-Zhu Li Huanting Wang 《Electrochemistry communications》2011,13(10):1038-1041
A three-dimensional (3D) fibrous cathode of solid oxide fuel cell was fabricated by using eggshell membranes (ESMs) as the template. This cathode possesses high porosity and interconnectivity, and low polarization resistance. A single fuel cell with the 3D fibrous Sm0.5Sr0.5CoO3/Ce0.8Sm0.2O1.9 cathode shows significantly improved performances at low operating temperatures (500–600 °C) as compared with the cell prepared with the ESM-templated cluster cathode in our previous study. 相似文献