【摘 要】
:
ABSTRACTSeries tunneling across peptides composed of various amino acids is one of the main charge transport mechanisms for realizing the function of protein. Histidine, more frequently found in redox active proteins, has been proved to be efficient tunne
【机 构】
:
Department of Chemistry,Tianjin Key Laboratory of Molecular Optoelectronic Sciences,School of Scienc
论文部分内容阅读
ABSTRACTSeries tunneling across peptides composed of various amino acids is one of the main charge transport mechanisms for realizing the function of protein. Histidine, more frequently found in redox active proteins, has been proved to be efficient tunneling mediator. While how it exactly modulates charge transport in a long peptide sequence remains poorly explored. In this work, we studied charge transport of a model peptide junction, where oligo-alanine peptide was doped by histidine at different position, and the series of peptides were self-assembled into a monolayer on gold electrode with soft EGaIn as top electrode to form molecular junction. It was found that histidine increased the overall conductance of the peptide, meanwhile, its position modulated the conductance as well. Quantitative analysis by transport model and ultraviolet photoelectron spectroscopy (UPS) indicated a sequence dependent energy landscape of the tunneling barrier of the junction. Density-functional theory (DFT) calculation on the electronic structure of histidine doped oligo-alanine peptides revealed localized highest occupied molecular orbital (HOMO) on imidazole group of the histidine, which decreased charge transport barrier.
其他文献
Single-atom site catalysts (SACs) and two-dimensional materials (2DM) have gradually become two hot topics in catalysis over the past decades. Their combination with each other can further endow the de-rived SACs with extraordinary properties such as high
Ammonium vanadate has been considered as a competitive high-performance cathode material for aque-ous Zn-ion batteries. However, it still suffers from insufficient rate capability and poor cyclability due to the low electronic conductivity. Herein, (NH4)2
为确保半潜式平台在码头防台风系泊时得到更精确的风载荷,以得到合理的系泊布置方式,以2座半潜式平台为研究对象,采用美国石油协会(API)规范、挪威石油标准化组织(NORSOK)规范和国内《港口工程荷载规范》中风载荷经验公式进行精细的理论计算,将其结果与精细模型和简化模型的风洞试验结果进行比较,分析得到各经验公式设计的冗余度和受风面积统计的简化方法,为后期码头系泊力计算提供合理的风载荷.
中国海洋油气田生产在我国油气田开采中占据重要地位,随着渤海油田平台进入生产中后期,油田在开采过程中面临采出液中第一副产物含水质量分数增大、成分愈加复杂和油水乳化加剧的问题.对渤海油田生产水处理工艺及设备进行总结,重点介绍适用于渤海稠油油田及轻质油田生产水处理工艺,并对斜板除油器、旋流除油器、气浮除油器、多介质过滤器和新型组合纤维聚结(Combination Fiber Coalescence,CFC)除油设备机理及应用场合进行介绍.
分析某海洋修井机钻具与转盘中心对中偏差超限值的问题,收集平台设计、建造、运行过程中的数据并对修井机在不同井位时相关结构的变形数据进行校核,在确认导管架桩基承载力和上部组块杆件的强度仍满足要求后,提出对已发生变形的滑轨进行整体更换并重新调平的方案,经过测试确认所提方案满足修井作业的要求.
依托国内近年某较深水气田开发项目,介绍该项目中软管垂直铺设有关的设备资源、软管参数、环境参数和主要施工内容,给出软管垂直铺设计算分析有关的接受准则和软件模型基础.详细论述基于该软管垂直铺设的安装模拟计算分析工作,包括对软管铺设的各个过程有针对性地进行安装模拟计算及结果分析,确定软管铺设过程中软管及主要安装设备的受力,确定海上施工适合作业天气窗口.研究工作可为后续类似项目提供借鉴.
The development of robust photocatalytic systems is key to harvest the solar power for hydrogen pro-duction. In the current study, a series of aluminum-based porphyrinic metal organic frameworks (Al-TCPP) with various morphologies of bulk, carambola-like
n-Alkanes have been widely used as phase change materials (PCMs) for thermal energy storage applica-tions because of their exceptional phase transition performance, high chemical stability, long term cyclic stability and non-toxicity. However, the thermod
Developing large-scale electrocatalysts using molecular complexes for the oxygen evolution reaction (OER) is of great importance. Herein, four cobalt porphyrins and corroles are deposited on electrode substrates using a simple and fast electropolymerizati
We report a series of highly stable metallophthalocyanine-based covalent organic frameworks (MPc-dx-COFs) linked by robust 1,4-dioxin bonds constructed through nucleophilic aromatic substitution (SNAr) reaction. The chemical structures and crystallinity o