石墨烯层间纳米摩擦性质的第一性原理研究

基于密度泛函理论的第一性原理计算方法研究了纳米尺度下石墨烯层间摩擦现象, 探讨了对称和非对称两种情况下双层石墨烯层间沿不同方向的摩擦性质. 研究发现对于对称的双层石墨烯, 层间摩擦沿不同方向同性; 摩擦因数依赖于正压力, 随正压力增大, 摩擦因数的变化曲线分为三个阶段, 在较小以及较大压力下, 摩擦因数遵循Amonton法则不随压力变化而变化; 而在中间3-6 nN阶段, 摩擦因数随压力增加线性增加. 整个研究压力范围内摩擦因数在0.05-0.25之间. 对于非对称性双层石墨烯层间摩擦, 不同压力下摩擦因数在0.006上下波动, 摩擦因数较两层对称性石墨烯大大降低. 上述研究结果与实验一致.     

元素替代对LiNH2储氢材料释氢能力影响的第一性原理研究

采用第一性原理赝势平面波方法,研究了元素替代对 LiNH₂释氢能力影响及作用机理.计算给出了结合能、电子态密度、电荷布居,分析了结构的稳定性和原子间的成键情况.结果表明：金属Ca,Na,Al替代LiNH₂部分Li时,可以使N—H键有所减弱.Mg,Al同时替代Li时,效果最好.在Li（Mg）NH₂中,非金属元素B,C,P替代N时,C的效果最好.预测Mg,Al,C共同替代时,会得到的一种较低释氢温度的储氢材料. 关键词： 2储氢材料')" href="#">LiNH₂储氢材料 密度泛函理论 元素替代行为 释氢能力     

双层石墨烯吸附碱金属原子的第一性原理研究

基于密度泛函的第一性原理方法,研究了Li、Na、K和Rb碱金属原子吸附在双层石墨烯(BLG)表面的吸附能、迁移行为、电子性能. 研究发现,Li和Na原子在BLG表面吸附易形成团簇,K和Rb原子能够分散吸附. 碱金属原子在BLG表面的扩散能垒随原子半径的增加而减小. 碱金属原子吸附使电子部分转移至BLG,使体系Fermi能级贯穿导带,表现出金属性. 电荷密度差和电荷转移的分析表明,Li、Na、K和Rb与BLG表面以离子键结合.     

双层石墨烯吸附碱金属原子的第一性原理研究

基于密度泛函的第一性原理方法,研究了Li、Na、K和Rb碱金属原子吸附在双层石墨烯(BLG)表面的吸附能、迁移行为、电子性能.研究发现,Li和Na原子在BLG表面吸附易形成团簇,K和Rb原子能够分散吸附.碱金属原子在BLG表面的扩散能垒随原子半径的增加而减小.碱金属原子吸附使电子部分转移至BLG,使体系Fermi能级贯穿导带,表现出金属性.电荷密度差和电荷转移的分析表明,Li、Na、K和Rb与BLG表面以离子键结合.     

电化学析氢反应中单层MoSe2氢吸附机理第一性原理研究

基于密度泛函理论的第一性原理方法,本文计算了单层2H相MoSe₂纳米材料表面及两种边缘（Mo原子边缘、Se原子边缘）不同活性位点、不同氢原子吸附率下的氢吸附吉布斯自由能（Gibbs free energy,用△G_H⁰表示）,并且将对应的微观结构进行了系统分析比较,得出△G_H⁰最接近于0 eV的吸附位点及相应的吸附率.同时,结合差分电荷密度和电负性理论,分析了单层MoSe₂两种边缘氢吸附的电荷转移及成键特性,进一步解释了不同吸附位点呈现的结构与能量趋势.最后,通过基于密度泛函理论的第一性原理分子动力学模拟,研究了高温热运动对两种边缘氢吸附的影响,获得了氢原子发生脱附的临界温度及对应的微观动态过程.该理论研究从原子尺度揭示了单层2H相MoSe₂纳米材料边缘不同位点在不同温度下对氢原子吸附和脱附的微观机理,证实了Mo原子边缘的畸变和重构行为,加深了对实验中单层2H相MoSe₂边缘在不同温度下氢吸附机理的理解,为实验中通过控制MoSe₂边缘设计廉价高效的析氢催化剂提供理论参考.     

First-principles study of plasmons in doped graphene nanostructures

The operating frequencies of surface plasmons in pristine graphene lie in the terahertz and infrared spectral range,which limits their utilization. Here, the high-frequency plasmons in doped graphene nanostructures are studied by the timedependent density functional theory. The doping atoms include boron, nitrogen, aluminum, silicon, phosphorus, and sulfur atoms. The influences of the position and concentration of nitrogen dopants on the collective stimulation are investigated,and the effects of different types of doping atoms on the plasmonic stimulation are discussed. For different positions of nitrogen dopants, it is found that a higher degree of symmetry destruction is correlated with weaker optical absorption. In contrast, a higher concentration of nitrogen dopants is not correlated with a stronger absorption. Regarding different doping atoms, atoms similar to carbon atom in size, such as boron atom and nitrogen atom, result in less spectral attenuation. In systems with other doping atoms, the absorption is significantly weakened compared with the absorption of the pristine graphene nanostructure. Plasmon energy resonance dots of doped graphene lie in the visible and ultraviolet spectral range.The doped graphene nanostructure presents a promising material for nanoscaled plasmonic devices with effective absorption in the visible and ultraviolet range.     

DFT study of hydrogen storage in Pd-decorated C60 fullerene

Hydrogen storage reactions on Pd-doped C₆₀ fullerene are investigated by using the state-of-the-art density functional theory calculations. The Pd atom prefers to bind at the bridge site between two hexagonal rings, and can bind up to four hydrogen molecules with average adsorption energies of 0.61, 0.45, 0.32, and 0.21 eV per hydrogen molecule. With no metal clustering, the system gravimetric capacities are expected to be as large as 5.8 wt%. While the desorption activation barriers of the complexes nH₂ + Pd–C₆₀ with n = 1 are outside the department of energy (DOE) domain (?0.2 to ?0.6 eV), the desorption activation barriers of the complexes nH₂ + Pd–C₆₀ with n = 2–4 are inside this domain. While the interaction of 1H₂ with Pd + C₆₀ is irreversible at 459 K, the interaction of 2H₂ with Pd + C₆₀ is reversible at 529 K. The hydrogen storage of the irreversible 1H₂ + Pd–C₆₀ and reversible 2H₂ + Pd–C₆₀ interactions are characterised in terms of densities of states, infrared, Raman, and proton magnetic resonance spectra, electrophilicity, and statistical thermodynamic stability.     

Interaction of hydrogen molecules on Ni-doped single-walled carbon nanotube

Adsorption of hydrogen molecules on an Ni-doped (8,0) single-walled carbon nanotube (SWNT) is investigated by using first-principles density functional calculations. The result shows that a single Ni atom adsorbed on the bridge site of the tube could cannot dissociate the H₂, however it can chemisorb three H₂ at most, with the average binding energy per H₂ suitable for the hydrogen storage at the room temperature. More H₂ would physisorb around an Ni atom weakly. As for the SWNT with an Ni dimer adsorbed, we find that when the H₂ approaches the Ni--Ni bond, it dissociates without overcoming any barrier and makes bonds with Ni atom.     

各Li吸附组分下硅烯氢存储性能的第一性原理研究

利用Li原子对硅烯进行表面修饰是提高硅烯氢存储能力的一种有效方法.为了充分挖掘Li修饰硅烯的氢存储性能,本文采用范德瓦耳斯作用修正的第一性原理计算方法,对不同Li吸附组分下硅烯的结构、稳定性和氢存储能力进行了研究.研究结果表明,硅烯体系能够在Li组分从0.11增加到0.50时保持稳定,其最大储氢量随Li组分的增加而增大,氢气平均吸附能则存在减小趋势;当Li组分达到0.50而饱和时,硅烯体系具有最大的储氢量,相应的质量储氢密度为11.46 wt%,平均吸附能为0.34 eV/H2,远高于美国能源部设定的储氢标准,表明提高Li组分甚至使其达到饱和在理论上能有效提高Li修饰硅烯的储氢性能.此外,通过对Mulliken电荷布居、差分电荷密度和态密度的分析,发现Li修饰硅烯的储氢机制与电荷转移诱导的静电相互作用和轨道杂化作用有关.研究结果可为Li修饰硅烯在未来氢存储领域的应用提供理论指导.     

C@Al_(12)团簇吸附H的密度泛函理论研究

利用密度泛函理论的方法研究了C@Al12Hn(1≤n≤7)团簇的结构和稳定性.n为偶数的C@Al12Hn具有更高的稳定性,大的HOMO-LUMO能隙、H原子的结合能以及高的垂直电离势表明这些团簇具有很高的物理和化学稳定性.最高占据分子轨道电荷密度分析显示,偶数n的C@Al12Hn团簇中,一对H原子倾向于占据相反的位置.变形电荷密度分析表明H原子与主体C@Al12之间的结合表现为共价键的特征.对奇数n的C@Al12Hn都具有1μB的磁矩.     

Theoretical study of hydrogen adsorption in Ti-decorated capped carbon nanotube

We present ab initio study using dispersion-corrected density functional theory calculations to investigate the hydrogen interaction with Ti-coated, one end closed, single-walled carbon nanotube (SWCNT). Our results demonstrate that a single Ti atom binds up to five hydrogen molecules on SWCNT cap top, whereas adsorption of four hydrogen molecules is energetically more favourable. The analyses from adsorption energy profile, highest occupied molecular orbital–lowest unoccupied molecular orbital gap and Mulliken charge distribution show contrast in first hydrogen molecule adsorption compared with the rest of four configurations. This is clearly due to the strongly different bonding nature of first hydrogen adsorption among others, between hydrogen molecules and Ti-coated SWCNT. These results not only support our understanding of adsorption nature of hydrogen in Ti-coated SWCNTs but also suggest new directions for smart storage techniques.     

钒基固溶体储氢材料弹性性质第一性原理研究

采用基于密度泛函理论的第一性原理赝势平面波方法,计算了（59Cr-41Ti）_100－xV_x（x=5,15,30,60,80,100）六种钒基储氢合金的晶格常数、弹性性质和电子态密度,计算结果与实验值符合较好.发现当x=60时的钒基合金具有较好弹性性质,杨氏模量为14930 GPa,切变模量为5442 GPa及体弹模量为19396 GPa.结合实验循环性能分析认为在吸放氢过程中合金已经发生塑性变形,弹性 关键词： 钒基固溶体 储氢合金材料 密度泛函理论 弹性性质     

第一性原理研究氧在Ni(111)表面上的吸附能及功函数

采用基于密度泛函理论（DFT）广义梯度近似（GGA）下的第一性原理方法系统地研究了不同覆盖度下O在Ni（111）表面的吸附特性.计算结果表明,O在Ni（111）表面的稳定吸附位为三重面心立方（fcc）洞位,吸附能随着覆盖度的增加而减小,O诱导Ni（111）表面功函数的变化量与覆盖度成近线性关系,并随着覆盖度的增加而增大.同时,通过对电子密度和分波态密度的分析发现：O在Ni（111）表面的吸附使得Ni表面电子向O原子转移,形成表面偶极矩,导致功函数增加;表面Ni原子的3d轨道和O的2p轨道通过耦合、杂化作用形成成键态和反键态,而反键态几乎不被占据,因而O—Ni键相互作用比较强,吸附能较大. 关键词： 表面吸附 密度泛函理论 吸附能 功函数     

Effect of metal catalyst on the mechanism of hydrogen spillover in three-dimensional covalent-organic frameworks

Hydrogen spillover mechanism of metal-supported covalent-organic frameworks COF-105 is investigated by means of the density functional theory, and the effects of metal catalysts M_4(Pt_4, Pd_4, and Ni_4) on the whole spillover process are systematically analyzed. These three metal catalysts exhibit several similar phenomena:(i) they prefer to deposit on the tetra(_4-dihydroxyborylphenyl) silane(TBPS) cluster with surface-contacted configuration;(ii) only the H atoms at the bridge site can migrate to 2,3,6,7,10,11-hexahydroxy triphenylene(HHTP) and TBPS surfaces, and the migration process is an endothermic reaction and not stable;(iii) the introduction of M_4 catalyst can greatly reduce the diffusion energy barrier of H atoms, which makes it easier for the H atoms to diffuse on the substrate surface. Differently, all of the H2 molecules spontaneously dissociate into H atoms onto Pt_4 and Pd_4clusters. However, the adsorbed H2 molecules on Ni_4 cluster show two types of adsorption states: one activated state with stretched H–H bond length of 0.88 ?A via the Kubas interaction and five dissociated states with separated hydrogen atoms. Among all the M_4 catalysts, the orders of the binding energy of M_4 deposited on the substrate and average chemisorption energy per H2 molecule are Pt_4Ni_4Pd_4. On the contrary, the orders of the migration and diffusion barriers of H atoms are Pt_4Ni_4Pd_4, which indicates that Pt_4 is the most promising catalyst for the hydrogen spillover with the lowest migration and diffusion energy barriers. However, the migration of H atoms from Pt_4 toward the substrate is still endothermic. Thus direct migration of H atom from metal catalyst toward the substrate is thermodynamically unfavorable.     

A comparative investigation of an AB- and AA-stacked bilayer graphene sheet under an applied electric field: A density functional theory study

An AB- and AA-stacked bilayer graphene sheet(BLG) under an electric field is investigated by ab initio calculation.The interlayer distance between the two layers,band structures,and atomic charges of the system are investigated in the presence of different electric fields normal to the BLG.The AB- stacked BLG is able to tune the bandgap into 0.234 eV with the increase of the external electronic field to 1 V/nm,however,the AA-stacked BLG is not sensitive to the external electric field.In both the cases,the spacing between the BLG slightly change in terms of the electric field.The charges in the AB- stacked BLG are increased with the increase of the electric field,which is considered to be the reason that causes the bandgap opening in the AB- stacked BLG.     

三氧化钨表面氢吸附机理的第一性原理研究

采用基于密度泛函理论的第一性原理平面波超软赝势方法,在广义梯度近似下,研究了立方WO_3,WO_3(001)表面结构及其氢吸附机理.计算结果表明立方晶体WO_3理论带隙宽度为0.587 eV.WO_3(001)表面有WO终止(001)表面和O终止(001)表面两种结构,表面结构优化后W—O键长和W—O—W键角改变,从而实现表面弛豫;WO终止(001)表面和O终止(001)表面分别呈现n型半导体特征和p型半导体特征.分别计算了H原子吸附在WO终止(001)表面和O终止(001)表面的H—O_(2c)—H,H—O_(2c)…H—O_(2c),H—O_(1c)—H和H—O_(1c)…H—O_(1c)四种吸附构型,其中H—O_(1c)—H吸附构型的吸附能最小,H—O键最短,H失去电子数最多,分别为-3.684 eV,0.0968 nm和0.55e,此吸附构型最稳定.分析其吸附前后的态密度,带隙从吸附前的0.624 eV增加到1.004 eV,价带宽度基本不变.H的1s轨道电子与O的2p,2s轨道电子相互作用,在-8和-20 eV附近各形成了一个较强的孤立电子峰,两个H原子分别与一个O_(1c)原子形成化学键,最终吸附反应生成了一个H_2O分子,同时产生了一个表面氧空位.     

First-principles study on anatase TiO2（101） surface adsorption of NO

In this paper, the stable structure and the electronic and optical properties of nitric oxide （NO） adsorption on the anatase TiO2 （101） surface are studied using the plane-wave ultrasoft pseudopotential method, which is based on the density functional theory. NO adsorption on the surface is weak when the outermost layer terminates on twofold coordinated oxygen atoms, but it is remarkably enhanced on the surface containing O vacancy defects. The higher the concentration of oxygen vacancy defects, the stronger the adsorption is. The adsorption energies are 3.4528 eV （N end adsorption）, 2.6770 eV （O end adsorption）, and 4.1437 eV （horizontal adsorption）. The adsorption process is exothermic, resulting in a more stable adsorption structure. Furthermore, O vacancy defects on the TiO2 （101） surface significantly contribute to the absorption of visible light in a relatively low-energy region. A new absorption peak in the low-energy region, corresponding to an energy of 0.9 eV, is observed. However, the TiO2 （101） surface structure exhibits weak absorption in the low-energy region of visible light after NO adsorption.     

B,P单掺杂和共掺杂石墨烯对O,O_2,OH和OOH吸附特性的密度泛函研究

基于第一性原理的密度泛函理论研究了B,P单掺杂以及B,P共掺杂石墨烯对O,O_2,OH和OOH的吸附特性.通过分析吸附能、键长、态密度以及电荷转移,比较了不同掺杂对燃料电池氧还原反应(ORR)中间物吸附的影响,进而探讨了反应过程,并给出各步反应自由能的变化趋势.结果表明:B,P单掺杂石墨烯对各中间物的吸附能存在线性关系,掺P石墨烯吸附OOH的吸附能为3.26 eV,远大于掺B石墨烯的吸附能0.73 eV;掺P石墨烯较大的吸附能有利于中间物OOH中O—O键的断裂,掺B石墨烯吸附能小有利于中间物OH生成H2O脱附的反应发生;而B,P共掺杂石墨烯的吸附存在协同效应,具有更好的催化ORR的反应能力.     

新型轻质储氢材料的第一性原理原子尺度设计

综述了近几年涌现出的一批新型轻质储氢材料,包括：碳纳米管、金属有机框架多孔材料、Al/B系复杂氢化物、金属-氮-氢系、金属有机复合物等,对其中采用第一性原理研究所取得的成果和最新的进展做了介绍,并结合实验结果做了应用分析.总结了各轻质储氢材料关联,为各种储氢材料设计之间提供了可以相互借鉴的方法,以便发展新的研究思路. 关键词： 储氢材料 第一性原理 从头算 密度泛函理论     

ZnO 极性表面及其N原子吸附机理的第一性原理研究

基于密度泛函理论的第一性原理赝势法计算了ZnO极性表面的几何结构和电子结构特性,对比分析了ZnO(0001)和ZnO(0001)表面结构弛豫、能带结构、电子态密度及N吸附ZnO极性表面的形成能情况.计算结果表明: 相对于ZnO(0001)表面,ZnO(0001)表面受结构弛豫影响更加明显,而ZnO(0001)表面完整性更好.相对于体相ZnO结构,ZnO(0001)表面的能带带隙变窄,同时价带顶附近能级非局域性增强使晶体表面的导电性能变得更好;而ZnO(0001)表面的能带带隙变宽,由于O^{-关键词： 密度泛函理论 第一性原理 ZnO极性表面 N吸附}