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971.
Wu Chengyi Wang Liping Kang Huiting Dan Youmeng Tian Dating Zheng Yin 《Research on Chemical Intermediates》2020,46(2):1437-1451
Research on Chemical Intermediates - Biomass waste, which was the by-product generated along with the production of food, was transformed into high-value constituent in slow-release fertilizers.... 相似文献
972.
Zheng Huayan Narkhede Nilesh Han Linyi Zhang Huacheng Li Zhong 《Research on Chemical Intermediates》2020,46(3):1749-1769
Research on Chemical Intermediates - The reaction steps during methanol synthesis from CO2/H2 are influenced by the type of catalysts such as pure Cu and Zn-decorated Cu. In this study, density... 相似文献
973.
Summary of main observation and conclusion In this work,the promotion effect of NaCl on the conversion of xylose to furfural in H2O was studied.it was found that xylose conversion and furfural yield increased with NaCl concentration.NaCl decreased the pH of the solution providing H+ for the acid catalytic dehydration of xylose.The formation of oligomers was determined by GPC and ESI-MS in the initial stage of reaction,especially at low temperature.Excess NaCl promoted the formation of humins in the late stage of the reaction.NaCl could also change the decomposition route of formic acid.Meanwhile,NaCl had the ability of phase separation.Combining these effects with organic solvent during the reaction could inhibit the formation of humins and increase the yield of furfural.In NaCl-H2O-THF biphasic system without other catalyst,the optimal furfural yield of 76.7% and selectivity of 77.6% were achieved at 463 K in 2 h. 相似文献
974.
In this work,a multi-functional analysis platform by coupling a microfluidic chip to a mass spectrometry(MS) detector was described.We constructed a three-dimensional tumor-endothelial co-culture model for simulating drug resistance during tumor treatment.On this specially designed integrated platform,the first step was to prepare heterogeneous cell-encapsulated alginate microcapsules for threedimensional co-culture,and the second step was to achieve on-line perfusion culture and continuous drug stimulation on chip.It facilitates cell proliferation analysis and the collection of metabolism medium.After micro solid phase extraction column(SPE) pretreatment,subsequent mass spectrometry could detect drug metabolism.The high activity of two kinds of cells(A549 and HUVEC) shows the biocompatibility of the platform.Paclitaxel was used as a model drug,the distinctions of drug absorption between the mono-culture group and co-culture group were clearly observed by electrospray ionization quadrupole time-of-flight mass spectrometry(ESI-Q-TOF MS).Therefore,the integrated platform has shown promise as a high throughput,low cost for cell metabolism research and drug screening processes. 相似文献
975.
Huiwen Zheng Hailin Zhang Yu Fan Ge Ju Hongbin Zhao Jianhui Fang Jiujun Zhang Jiaqiang Xu 《中国化学快报》2020,31(1):210-216
Recently,the development of new electrode materials for lithium-ion batteries(LIBs)has received intensive attention.As an important family of inorganic materials,mixed Mo-based transition metal oxides system is focused as anode materials.In the present work,a simple route has been adopted for the synthesis of layered-flake-likeβ-SnMo04 Nano-assemblies,which have been explored as potential anode materials for the first time in lithium-ion battery(LIB).Overall,the current reports on metal molybdate as anode materials are still rarely.As the anode material for LIBs,it was observed that the fabricated anode is capable of delivering a steady state capacity of almost 400 mAh/g up to 300 cycles under the influence of200 mA/g current density.Further,the anode material is suitable for use as a rated capacity anode because of its high current density tolerance.The present study can be further extended for the generation of a wide variety of other novel materials for multidisciplinary energy related applications. 相似文献
976.
Xiaofang Lu Qi Zheng Shijia Gu Rui Guo Li Su Jiancheng Wang Zhenxing Zhou Yuchi Fan Wan Jiang Lianjun Wang 《中国化学快报》2020,31(3):880-884
Cu@Ag/Bi2Te3 nanocomposites were prepared for the first time by ultrasonic dispersion-rapid freezedrying method combined with spark plasma sintering(SPS).By changing the content of Cu@Ag nanoparticle,we could modulate the temperature dependent thermoelectric properties.The highest ZT value can be obtained at 450 K for 1 vol%Cu@Ag/Bi2Te3,which is benefited from the decoupling of electrical and thermal properties.With the increase of electrical conductivity,the absolute value of Seebeck coefficient lifts while the thermal conductivity declines.Meanwhile,the average ZT value between 300 K and 475 K was 0.61 for 1 vol%Cu@Ag/Bi2Te3,which is much higher than that of pristine Bi2 Te3.Therefore,the decoupling effect of Cu@Ag nanoparticles incorporation could be a promising method to broaden the application of Bi2Te3 based thermoelectric materials. 相似文献
977.
Yunwen Tao Zheng Pei Nicole Bellonzi Yuezhi Mao Zhu Zou Wanzhen Liang Zhibo Yang Yihan Shao 《International journal of quantum chemistry》2020,120(6):e26123
In the modeling of spin-crossing reactions, it has become popular to directly explore the spin-adiabatic surfaces. Specifically, through constructing spin-adiabatic states from a two-state Hamiltonian (with spin-orbit coupling matrix elements) at each geometry, one can readily employ advanced geometry optimization algorithms to acquire a “transition state” structure, where the spin crossing occurs. In this work, we report the implementation of a fully-variational spin-adiabatic approach based on Kohn-Sham density functional theory spin states (sharing the same set of molecular orbitals) and the Breit-Pauli one-electron spin-orbit operator. For three model spin-crossing reactions (predissociation of N2O, singlet-triplet conversion in CH2, and CO addition to Fe(CO)4), the spin-crossing points were obtained. Our results also indicated the Breit-Pauli one-electron spin-orbit coupling can vary significantly along the reaction pathway on the spin-adiabatic energy surface. On the other hand, due to the restriction that low-spin and high-spin states share the same set of molecular orbitals, the acquired spin-adiabatic energy surface shows a cusp (ie, a first-order discontinuity) at the crossing point, which prevents the use of standard geometry optimization algorithms to pinpoint the crossing point. An extension with this restriction removed is being developed to achieve the smoothness of spin-adiabatic surfaces. 相似文献
978.
979.
近年来,高性能荧光有机电致发光器件(FOLEDs)的开发受到了广泛关注。由于荧光材料仅能利用25%的单重态激子辐射发光,FOLEDs的外量子效率(EQE)理论极限为5%。通过能量转移,充分利用主体分子的单重态与三重态激子敏化荧光客体发光,可以提高激子利用率。目前敏化型FOLEDs(SFOLEDs)的最高EQE已达26.1%。本文详细介绍了SFOLEDs的敏化原理和机制,并根据敏化机制的不同,系统地总结了热活化延迟荧光敏化、激基复合物敏化、三重态湮灭敏化和局域电荷转移杂化激发态(HLCT)敏化等各类SFOLEDs的材料与器件结构特点及其研究进展。最后本综述对该类器件的研究前景进行了展望,期待吸引更多专业的研究人员的研究兴趣,进而推动该领域的发展。 相似文献
980.
DONG Wenfei CHEN Xiaoyu PENG Juan LIU Wanyi JIN Xiaoyong NI Gang LIU Zheng 《高等学校化学研究》2020,36(4):648-661
Ammonia is a commodity chemical with high added value. Electrochemical reduction of nitrogen has great promise for the sustainable synthesis of ammonia in recent years. Because of its rich resources and unique electronic structure and characteristics, 2D transition metal compounds have been used as electrocatalysts for electrochemical reduction of nitrogen for clean and sustainable production of ammonia. This review outlines the latest development in the use of 2D transition metal compounds as high-efficiency electrocatalysts for nitrogen reduction reaction(NRR). First, we introduce the N2 reduction mechanism, and briefly summarize the performance indicators of the catalyst. Then, we focused on the functionalization of unique 2D materials to design high-performance 2D electrocatalysts in respect of simulation calculation and experimental development. Finally, the current challenges and future opportunities for NRR electrocatalysts are introduced. 相似文献