基于MOOS理念的药学网络学习平台的构建

为充分运用互联网技术培养大学生的创新能力,在对"慕课"MOOC(Massive Open Online Courses)网络教学理念的研究基础上,通过对网络学习模式进行更广泛的探索,提出"慕斯"(Mobile Open Online School,即移动在线开放校园,简称MOOS)网络教学新理念,突破单一的课程学习模式,实现网络学习的横向拓展,构建以现代大学生需求为驱动的网络学习生态系统。该文探讨基于MOOS理念构建药学网络学习平台,以期提高药学生的创新思维与能力。

构建促进学生自主性学习的课堂环境——基于穆斯(Moos)三维度环境理论

培养学生自主学习能力是当前高校改革的重点,课堂环境是改革的一个重要影响因素。穆斯的社会环境理论为创建自主学习的课堂环境提供了理论基础,从其三个维度(人际关系、个人发展与目标定向、系统的维持与变革)具体探讨如何构建有利于学生自主性学习的课堂环境,这为成功地进行教学改革提供了科学的指导方向。

蝴蝶形原子簇化合物[MoOS3Cu2（PyPPh2）3]的制备、晶体结构和非线性光学性质研究

采用固相反应方法以[NH4]2[MoS2O2],Cul,Et4NBr和2-(二苯基膦)吡啶(PyPPh2)为原料制备了标题化合物.其结构用单晶分析法测定.测得化合物的分子式为[MoOS3Cu2(PyPPb2)3],该晶体结构属三斜晶系,空间群为P-1,所得晶胞参数为a=1.16736(4)nm,b=1.42254(5)nm,c=1.68034(6)nm,α=100.07°,β=103.2450(10)°,γ=105.0650(10)°,V=2.53991(15)nm3,Z=2,Dc=1.504g@cm-3,F(000)=1166,μ=13.57 cm-1.偏差因子R1=0.0590,wR2=0.1238.簇合物具有高度弯曲的蝴蝶状核,其中MoOS32基团以三齿配体的形式与两个具有不同构型的Cu原子配位,氧原子不参加配位仅以端基形式存在.通过标题化合物在DMF中非线性光学性质的测定,表明其具有较好的非线性吸收和与以往不同的自散焦效应,算得其非线性吸收系数α2=4.4×10-11m@W-1,非线性折射系数n2=-8.225×10-18m2@W-1;从而说明外围配体对非线性光学性质也具有大的影响作用.

NiMoO_(4)/ZnIn_(2)S_(4)S-scheme异质结的制备及光催化产氢性能增强机制

首先通过水热法制备得到NiMoO_(4)·x H_(2)O前驱体,再经高温煅烧得到NiMoO_(4)纳米棒,最后通过超声混合及溶剂蒸干处理将NiMoO_(4)与ZnIn_(2)S_(4)复合构建了NiMoO_(4)/ZnIn_(2)S_(4)S-scheme异质结光催化剂。研究结果表明,NiMoO_(4)质量分数为10.7%时,复合材料(10.7-NiMoO_(4)/ZnIn_(2)S_(4))具有较好的载流子分离效率,较低的界面电荷转移阻力和较大的电化学活性面积。在300 W氙灯照射下,其产氢速率可达29.04 mmol·g^(-1)·h^(-1),约为单体ZnIn_(2)S_(4)(5.58 mmol·g^(-1)·h^(-1))的5.20倍。自由基捕获实验及能带结构分析表明,NiMoO_(4)和ZnIn_(2)S_(4)之间形成了S-scheme电荷转移机制,不仅促进了载流子的分离与迁移,而且保留了较强的氧化还原能力。此外,NiMoO_(4)的引入提高了异质结的电化学活性面积,以上因素协同提高了体系的光催化析氢性能。

基于MOOS的自主式水下机器人导航系统

针对自主式水下机器人(autonomous underwater vehicle,AUV)的试验成本极高,水下机器人的应用与算法验证都需要在一个理想的仿真环境中进行测试,且仿真环境的建模较为困难等问题,提出了应用MOOS软件系统对AUV导航系统进行导航位姿、通讯及三维信息的仿真,对MOOS软件系统的通信方法、软件架构、数据采集方式和传感器数据类型等方面进行了参数配置和仿真说明.面对工程导向,从数据产生机制、数据发布订阅和数据解析处理等角度,对MOOS软件系统进行论证分析.分析结果表明,MOOS系统可根据AUV导航系统的预设轨迹信息产生相关环境传感器数据,有效地进行多源信息融合与导航位姿解算.

基于MOOS的AUV的数据采集和监控系统

随着海洋事业的发展,对海洋的探测和开发工作提出了更高要求。自主式水下机器人能很好的适应水下复杂的环境,通过自主导航定位,路径规划来完成相应的工作。为实现水下机器人稳定可靠的数据采集工作,采用以MOOS为平台的分布式设计方法,提高了数据采集系统的精度和效率,从而提高了AUV导航定位的准确性和可靠性。

基于RIR-MOO与可拓符号学的茶山瑶族服饰元素家具产品设计研究

目的拓展茶山瑶族服饰元素在现代家具中的应用途径,保护和传承茶山瑶族传统服饰文化。将RIR-MOO(相对重要性等级“多目标优化”)的产品优化设计逻辑跨界融合至家具产品设计中,使家具产品设计与传统民族文化深度融合。方法首先基于RIR-MOO逻辑流程筛选用户关键性需求,计算用户需求与设计目标的关联度,从而确定家具产品设计目标,其次运用可拓符号学理论,构建茶山瑶族服饰元素特征图库,进而利用可拓基元变换将原始元素符号转换为设计元素符号,最终生成家具产品设计方案。结果结合具体的设计案例实践,详细阐述了该设计流程的可实践性。结论基于RIR-MOO与可拓符号学的茶山瑶族服饰元素家具产品设计方法研究,丰富了关于茶山瑶族传统服饰文化的理论研究。将茶山瑶服饰元素融入家具产品设计,彰显了民族文化与现代家居环境的契合性,注重特定设计与人居环境的恰当融合,为基于民族传统服饰文化的家具产品创意设计提供了有效的设计思路与方法参考。

Construction of LSPR-enhanced 0D/2D CdS/MoO3‒x S-scheme heterojunctions for visible-light-driven photocatalytic H2 evolution

Plasmonic nonmetal semiconductors with localized surface plasmon resonance(LSPR)effects possess extended light-response ranges and can act as highly efficient H2 generation photocatalysts.Herein,an LSPR-enhanced 0D/2D CdS/MoO3‒x heterojunction has been synthesized by the growth of 0D CdS nanoparticles on 2D plasmonic MoO3‒x elliptical nanosheets via a simple coprecipitation method.Taking advantage of the LSPR effect of the MoO3‒x elliptical nanosheets,the light absorption of the CdS/MoO3‒x heterojunction was extended from 600 nm to the near-infrared region(1400 nm).Furthermore,the introduction of 2D plasmonic MoO3‒x elliptical nanosheets not only provided a platform for the growth of CdS nanoparticles,but also contributed to the construction of an LSPR-enhanced S-scheme structure due to the interface between the MoO3‒x and CdS,accelerating the separation of light-induced electrons and holes.Therefore,the CdS/MoO3‒x heterojunction exhibited higher photocatalytic H2 generation activity than pristine CdS under visible light irradiation,including under 420,450,550,and 650 nm monochromic light,as well as improved photo-corrosion performance.

Fabrication of Z-scheme MoO3/Bi2O4 heterojunction photocatalyst with enhanced photocatalytic performance under visible light irradiation

Constructing Z-scheme heterojunction to improve the separation efficiency of photogenerated carriers of photocatalysts has gained extensive attention.In this work,we fabricated a novel Z-scheme MoO3/Bi2O4 heterojunction photocatalyst by a hydrothermal method.XPS analysis results indicated that strong interaction between MoO3 and Bi2O4 is generated,which contributes to charge transfer and separation of the photogenerated carriers.This was confirmed by photoluminescence(PL)and electrochemical impedance spectroscopy(EIS)tests.The photocatalytic performance of the as-synthesized photocatalysts was evaluated by degrading rhodamine B(RhB)in aqueous solution under visible light irradiation,showing that 15%MoO3/Bi2O4(15-MB)composite exhibited the highest photocatalytic activity,which is 2 times higher than that of Bi2O4.Besides,the heterojunction photocatalyst can keep good photocatalytic activity and stability after five recycles.Trapping experiments demonstrated that the dominant active radicals in photocatalytic reactions are superoxide radical( O2-)and holes(h+),indicating that the 15-MB composite is a Z-scheme photocatalyst.Finally,the mechanism of the Z-scheme MoO3/Bi2O4 composite for photo-degrading RhB in aqueous solution is proposed.This work provides a promising strategy for designing Bi-based Z-scheme heterojunction photocatalysts for highly efficient removal of environmental pollutants.

基于MOOS-IvP的自主式水下航行器的机载软件系统容错设计

为提高自主水下航行器的可靠性,构建基于MOOS-IvP的自主水下航行器机载软件系统容错管理模块。该模块包括客户端状态监控和容错处理。在容错处理中,提出一种时间冗余和双进程冗余相结合的容错处理技术。通过在水池和海洋中对自主水下航行器改进后的软件系统进行测试,并用经典的软件可靠性增长模型定量对比分析了自主水下航行器改进前后软件系统平均无故障运行时间。试验结果表明,增加容错管理模块后的软件系统的可靠性明显提高。

Z型异质结Cu_(2)O/Bi_(2)MoO_(6)的构建及光催化降解性能

通过水热法制备出一系列Z型异质结Cu_(2)O/Bi_(2)MoO_(6)新型光催化剂。采用扫描电子显微镜、粉末X射线衍射、红外光谱、紫外可见吸收光谱等表征手段研究了催化剂的形貌、结构性质和光电化学性质,并以四环素(TC)为降解目标污染物,进一步探究了其催化效率。实验结果表明,Cu_(2)O的加入提高了复合催化剂的光催化性能,其中20%Cu_(2)O/Bi_(2)MoO_(6)复合催化剂(Cu_(2)O和Bi_(2)MoO_(6)的质量比为20%)降解效果最好,100 min内可降解95%的TC。Cu_(2)O与Bi_(2)MoO_(6)之间的协同作用使其可以吸收更多的可见光,所构建的Z型异质结改变了电子转移途径,提高了电子与空穴的分离效率,光催化活性显著提高。通过自由基捕获实验和能带结构,分析了Z型异质结Cu_(2)O/Bi_(2)MoO_(6)复合催化剂光催化降解TC可能的机理。

Novel indirect Z-scheme g-C3N4/Bi2MoO6/Bi hollow microsphere heterojunctions with SPR-promoted visible absorption and highly enhanced photocatalytic performance

The surface plasmonic resonance(SPR)effect of Bi can effectively improve the light absorption abilities and photogenerated charge carrier separation rate.In this study,a novel ternary heterojunction of g-C3N4/Bi2MoO6/Bi(CN/BMO/Bi)hollow microsphere was successfully fabricated through solvothermal and in situ reduction methods.The results revealed that the optimal ternary 0.4 CN/BMO/9 Bi photocatalyst exhibited the highest photocatalytic efficiency toward rhodamine B(RhB)degradation with nine times that of pure BMO.The DRS and valence band of the X-ray photoelectron spectroscopy spectrum demonstrate that the band structure of 0.4 CN/BMO/9 Bi is a z-scheme structure.Quenching experiments also provided solid evidence that the·O^2-(at-0.33 eV)is the main species during dye degradation,and the conduction band of g-C3N4 is only the reaction site,demonstrating that the transfer of photogenerated charge carriers of g-C3N4/Bi2 MoO 6/Bi is through an indirect z-scheme structure.Thus,the enhanced photocatalytic performance was mainly ascribed to the synergetic effect of heterojunction structures between g-C3N4 and Bi2MoO6 and the SPR effect of Bi doping,resulting in better optical absorption ability and a lower combination rate of photogenerated charge carriers.The findings in this work provide insight into the synergism of heterostructures and the SPR absorption ability in wastewater treatment.

S‐Scheme 2D/2D Bi_(2)MoO_(6)/BiOI van der Waals heterojunction for CO_(2) photoreduction

Reducing CO_(2) to hydrocarbon fuels by solar irradiation provides a feasible channel for mitigating excessive CO_(2) emissions and addressing resource depletion.Nevertheless,severe charge recombi‐nation and the high energy barrier for CO_(2) photoreduction on the surface of photocatalysts com‐promise the catalytic performance.Herein,a 2D/2D Bi_(2)MoO_(6)/BiOI composite was fabricated to achieve improved CO_(2) photoreduction efficiency.Charge transfer in the composite was facilitated by the van der Waals heterojunction with a large‐area interface.Work function calculation demon‐strated that S‐scheme charge transfer is operative in the composite,and effective charge separation and strong redox capability were revealed by time‐resolved photoluminescence and electron para‐magnetic resonance spectroscopy.Moreover,the intermediates of CO_(2) photoreduction were identi‐fied based on the in situ diffuse reflectance infrared Fourier‐transform spectra.Density functional theory calculations showed that CO_(2) hydrogenation is the rate‐determining step for yielding CH_(4) and CO.Introducing Bi_(2)MoO_(6) into the composite further decreased the energy barrier for CO_(2) photoreduction on BiOI by 0.35 eV.This study verifies the synergistic effect of the S‐scheme heterojunction and van der Waals heterojunction in the 2D/2D composite.

CONSTRUCTION OF HIGH-ORDER ACCURACY IMPLICIT RESIDUAL SMOOTHING SCHEMES

Referring to the construction way of Lax-Wendroff scheme, new IRS (Implicit Residual Smoothing) schemes have been developed for hyperbolic, parabolic and hyperparabolic equations. These IRS schemes have 2nd-order or 3 rd-order time accuracy, and can extend the stability region of basic explicit time-stepping scheme greatly and thus can permit higher CFL number in the calculation of flow field. The, central smoothing and upwind-bias smoothing techniques have been developed tao. Based on one-dimensional linear model equation, it has been found that the scheme is unconditionally stable according to the von-Neumann analysis. The limitation of Dawes' method, which has been applied in turbomachinery widespreadly, has been discussed on solving steady flow and viscous flow. It is shown that stable solution of this method is not completely independent with the value of time step. In the end, numerical results by using IRS schemes and Dawes' method as well as TVD ( total variation diminishing) scheme and four-stage Runge-Kutta technique are presented to verify, the analytical conclusions.

SMOOTHNESS INDICATOR OF WENO SCHEME FOR RESOLVING SHORT WAVE

Based on the traditional fifth-order weighted essentially non-oscillatory(WENO)scheme,a smoothness indicator is introduced to improve the capability of WENO schemes for resolving short waves.In the construction of the new smoothness indicator,the proportion of the first-order term in the original smoothness indicator is reduced by replacing the square of the first-order term with the product of the first-order and the third-order terms.To preserve the fifth-order of convergence rate,the smoothness indicator is combined with the method of Borges,et al.The numerical results show that the proposed schemes are more suitable for simulating turbulent flows or aeroacoustics problems than the previous fifth-order WENO schemes,thanks to its improved resolution on short waves.

DIFFERENCE SCHEME FOR AN INITIAL-BOUNDARY VALUE PROBLEM FOR LINEAR COEFFICIENT-VARIED PARABOLIC DIFFERENTIAL EQUATION WITH A NONSMOOTH BOUNDARY LAYER FUNCTION

In this paper, using nonuniform mesh and exponentially fitted difference method, a uniformly convergent difference scheme for an initial-boundary value problem of linear parabolic differential equation with the nonsmooth boundary layer function with respect to small parameter e is given, and error estimate and numerical result are also given.

Construction of a Computational Scheme for the Fuzzy HIV/AIDS Epidemic Model with a Nonlinear Saturated Incidence Rate

This work aimed to construct an epidemic model with fuzzy parameters.Since the classical epidemic model doesnot elaborate on the successful interaction of susceptible and infective people,the constructed fuzzy epidemicmodel discusses the more detailed versions of the interactions between infective and susceptible people.Thenext-generation matrix approach is employed to find the reproduction number of a deterministic model.Thesensitivity analysis and local stability analysis of the systemare also provided.For solving the fuzzy epidemic model,a numerical scheme is constructed which consists of three time levels.The numerical scheme has an advantage overthe existing forward Euler scheme for determining the conditions of getting the positive solution.The establishedscheme also has an advantage over existing non-standard finite difference methods in terms of order of accuracy.The stability of the scheme for the considered fuzzy model is also provided.From the plotted results,it can beobserved that susceptible people decay by rising interaction parameters.

On the Use of Monotonicity-Preserving Interpolatory Techniques in Multilevel Schemes for Balance Laws

Cost-effective multilevel techniques for homogeneous hyperbolic conservation laws are very successful in reducing the computational cost associated to high resolution shock capturing numerical schemes.Because they do not involve any special data structure,and do not induce savings in memory requirements,they are easily implemented on existing codes and are recommended for 1D and 2D simulations when intensive testing is required.The multilevel technique can also be applied to balance laws,but in this case,numerical errors may be induced by the technique.We present a series of numerical tests that point out that the use of monotonicity-preserving interpolatory techniques eliminates the numerical errors observed when using the usual 4-point centered Lagrange interpolation,and leads to a more robust multilevel code for balance laws,while maintaining the efficiency rates observed forhyperbolic conservation laws.

An Arbitrarily High Order and Asymptotic Preserving Kinetic Scheme in Compressible Fluid Dynamic

We present a class of arbitrarily high order fully explicit kinetic numerical methods in compressible fluid dynamics,both in time and space,which include the relaxation schemes by Jin and Xin.These methods can use the CFL number larger or equal to unity on regular Cartesian meshes for the multi-dimensional case.These kinetic models depend on a small parameter that can be seen as a"Knudsen"number.The method is asymptotic preserving in this Knudsen number.Also,the computational costs of the method are of the same order of a fully explicit scheme.This work is the extension of Abgrall et al.(2022)[3]to multidimensional systems.We have assessed our method on several problems for two-dimensional scalar problems and Euler equations and the scheme has proven to be robust and to achieve the theoretically predicted high order of accuracy on smooth solutions.

S-scheme heterojunction with ultrafast interfacial electron transfer for artificial photosynthesis

The rapid development of the global economy has led to the over-exploitation and burning of fossil fuels,causing a severe energy crisis and continuous CO_(2) emissions.Although solar energy is a clean and renewable resource,it faces significant diurnal and seasonal variations and is difficult to store[1-4].Converting solar energy into storable chemical energy through photocatalysis is an effective way to address both energy scarcity and environmental issues.Photocatalytic CO_(2) reduction,with the development of high-efficiency photocatalysts as the key,offers a clean and environmentally friendly method to convert CO_(2) into valuable hydrocarbon fuels,providing a viable solution to the global energy crisis and climate change[5,6].