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Bo Liu,Fan Yi,Jun zhou 한국물리학회 2006 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.49 No.1
In recent years, the detection and investigation of the middle and the upper atmosphere have been quite active subjects. To acquire information on the middle and the upper atmosphere, we developed the first Fe fluorescence/Boltzmann temperature lidar in Asia. In this paper, the system configuration and data-processing methods of the lidar are described, and some results of lidar observations are presented.
Liu Hong Bo,Li Xin Xia,Xiao Zheng Yao,Zhang Ding Zong,Sun Ai Ping 한국물리학회 2021 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.79 No.12
The helicon wave heating and current drive in the HL-2M tokamak for the steady-state scenario is studied numerically. Based on the theory of fast wave current drive proposed by Chiu, we analyze the characteristics of helicon waves damping for the HL-2M tokamak. For wave frequencies larger than 420 MHz, strong wave damping occurs, and electron Landau damping is dominant. Moreover, a strong wave absorption region associated with the dimensionless parameters βe and ξe that depend on the wave frequency is obtained. The helicon wave propagation and current drive are simulated using the GENRAY/CQL3D code. The results show that an off-axis current drive with profiles peak at ρ ∼ 0.4 can be generally received at a wave frequency f ∼ 500 MHz and the launched parallel refractive index n∕∕ = 3.8 and that the current drive efficiency reaches up to ∼140 kA/MW. A scan of n∕∕ showed that both the current drive profile peak and the generated current could be adjusted by changing the launched n∕∕ . Finally, a feasible scheme for the helicon wave off-axis current drive in the HL-2M tokamak is proposed.
Behavior of reinforced concrete beams filled with demolished concrete lumps
Bo Wu,Zhe Xu,Zhongguo John Ma,Qiongxiang Liu,Wei Liu 국제구조공학회 2011 Structural Engineering and Mechanics, An Int'l Jou Vol.40 No.3
In the past decades, recycling use of demolished concrete was almost limited to the types of recycled coarse aggregate with a size of about 5-40 mm and recycled fine aggregate with a size of about 0-5 mm for concrete structures, and reuse of demolished concrete lumps (DCLs) with a size much larger than that of recycled aggregate, e.g., 50-300 mm, has been limited to roadbed, backfilling materials, or discarded to landfills. Treatment processes of DCLs are much simpler than those of recycled aggregate, leading to less cost and more energy-saving. In the future, the amount of demolished concrete is estimated to be much higher, so reuse of DCLs for concrete structures will become necessary. The objectives of this paper are to document the process of making reinforced concrete beams with DCLs, and to discuss the flexural and shear behaviors of those reinforced DCL beams through an experimental program, which includes three beams filled with DCLs and one conventional beam for investigating the flexural strengths and deformations, and 12 beams filled with DCLs and two conventional beams for investigating the shear strengths and deformations. The authors hope that the proposed concept offers another sustainable solution to the concrete industry.
Molecular Cloning and Bioinformatic Analysis of SPATA4 Gene
Liu, Shang-Feng,Ai, Chao,Ge, Zhong-Qi,Liu, Hai-Luo,Liu, Bo-Wen,He, Shan,Wang, Zhao Korean Society for Biochemistry and Molecular Biol 2005 Journal of biochemistry and molecular biology Vol.38 No.6
Full-length cDNA sequences of four novel SPATA4 genes in chimpanzee, cow, chicken and ascidian were identified by bioinformatic analysis using mouse or human SPATA4 cDNA fragment as electronic probe. All these genes have 6 exons and have similar protein molecular weight and do not localize in sex chromosome. The mouse SPATA4 sequence is identified as significantly changed in cryptorchidism, which shares no significant homology with any known protein in swissprot databases except for the homologous genes in various vertebrates. Our searching results showed that all SPATA4 proteins have a putative conserved domain DUF1042. The percentages of putative SPATA4 protein sequence identity ranging from 30% to 99%. The high similarity was also found in 1 kb promoter regions of human, mouse and rat SPATA4 gene. The similarities of the sequences upstream of SPATA4 promoter also have a high proportion. The results of searching SymAtlas (http://symatlas.gnf.org/SymAtlas/) showed that human SPATA4 has a high expression in testis, especially in testis interstitial, leydig cell, seminiferous tubule and germ cell. Mouse SPATA4 was observed exclusively in adult mouse testis and almost no signal was detected in other tissues. The pI values of the protein are negative, ranging from 9.44 to 10.15. The subcellular location of the protein is usually in the nucleus. And the signal peptide possibilities for SPATA4 are always zero. Using the SNPs data in NCBI, we found 33 SNPs in human SPATA4 gene genomic DNA region, with the distribution of 29 SNPs in the introns. CpG island searching gives the data about CpG island, which shows that the regions of the CpG island have a high similarity with each other, though the length of the CpG island is different from each other.This research is a fundamental work in the fields of the bioinformational analysis, and also put forward a new way for the bioinformatic analysis of other genes.
Bo Liu,Chao Li,Yicheng Wang,Jun Nie,Xiaoqun Zhu 한국공업화학회 2021 Journal of Industrial and Engineering Chemistry Vol.103 No.-
The vortex-ring derived particles are new type of non-spherical hydrogel particles, which are prepared byimitating the process of vortex-ring in nature. However, the traditional existing vorticity ring derivedhydrogel particles were prepared by dropping polyelectrolyte solution into contra-ion coagulation bath,which limited the choice of materials. In this paper, a strategy of preparation non-spherical hydrogel particlesby using non-polyelectrolyte polyvinyl alcohol through the method of vortex ring was proposed. Based on the principle that the boraciated polyvinyl alcohol solution could be quickly gelled underalkaline condition, the spherical and various derivative shapes (red cell, bowl, dish, ring) of polyvinylalcohol vortex-ring derived hydrogel particles (PVHP) were prepared. The hydrogel particles have theability to assemble into different modules by dynamic borate bond in the hydrogel particles. Also, thisdynamic borate bond endowed the PVHP decomposable and recyclable performances. In addition,two-compartments, three-compartments and magnetic PVHP were also prepared, endowing PVHP withseveral functions. which opens up a new environmentally friendly way for the preparation of multifunctionalparticles.
Liu, Bo,Liu, Qingbin,You, Dan,Li, Xiaoyan,Naruta, Yoshinori,Zhu, Weihong The Royal Society of Chemistry 2012 Journal of materials chemistry Vol.22 No.26
<P>The increasing electron-donating ability of the donor part is focused to further optimize the light-harvesting capability. Our strategy is to introduce an additional donor group into the indoline unit in the donor part to form a donor–donor structure (D–D moiety). Three different units (carbazole, fluorene and 4-methylphenyl groups) with different degrees of electron-donating capability are incorporated, thus constructing the specific donor–donor–π–acceptor (D–D–π–A) system (C-CA, F-CA and I-3) and giving a systematic view of the absorption evolution. Through molecular engineering, their light-harvesting capabilities, energy levels and photovoltaic performances were studied. As expected, utilizing strong electron-donating carbazole unit as additional donor, the IPCE spectrum of DSSC based on C-CA is successfully broadened to NIR region on the premise of suitable LUMO level, with an extraordinarily high plateau in visible region till around 700 nm. In the system of C-CA and F-CA, the introduction of <I>n</I>-pentyl group in donor part of carbazole and fluorene unit has little effect on preventing the molecular π-aggregation due to the good co-planarity of π-linker (vinyl thiophene), suggesting that the most effective way to prevent π-aggregation is still the incorporation of long alkyl groups into planar π-linker segment. However, the introducing long alkyl group can effectively prevent the electron recombination between electrons in conduction band (CB) of TiO<SUB>2</SUB> and I<SUB>3</SUB><SUP>−</SUP> ions. Along with the preferable light-harvesting capability, C-CA presents excellent IPCE performance with a short-circuit photocurrent (<I>J</I><SUB>sc</SUB>) of 18.53 mA cm<SUP>−2</SUP>, an open-circuit photovoltage (<I>V</I><SUB>oc</SUB>) of 649 mV, a fill factor of 0.71, corresponding to a power conversion efficiency (<I>η</I>) of 8.49%. The internal relations between chemical structure and conversion efficiency provide a strategy for developing highly efficient organic sensitizers working in whole visible region with high photovoltaic performance.</P> <P>Graphic Abstract</P><P>Utilizing a carbazole unit as additional donor, the photoresponse of C-CA is broadened to the NIR region with a <I>η</I> of 8.49%. <IMG SRC='http://pubs.rsc.org/services/images/RSCpubs.ePlatform.Service.FreeContent.ImageService.svc/ImageService/image/GA?id=c2jm31704d'> </P>
Liu, Hai-Bo,Kim, Jung Sun,Park, Sunghoon Mary Ann Liebert, Inc 2011 Journal of biomolecular screening Vol.16 No.9
<P>Quorum sensing (QS) is a cell density-dependent signaling system that is used by bacteria to coordinate gene expression within their population. In this study, the authors describe the development and characterization of various cell-based bioassay systems for detecting QS inhibitors based on three LuxR family proteins, TraR, LasR, and the recently identified QscR. Three different gram-negative bacteria, Escherichia coli, Agrobacterium tumefaciens, and Pseudomonas aeruginosa, were employed as reporter strains to overproduce one of the aforementioned QS activator proteins and respond to inhibitors. The nine different whole-cell assay systems (three reporter strains three QS proteins) were evaluated for their applicability and reliability by studying quantitative responses to various furanones, which are potent inhibitors of the LuxR family proteins. These results demonstrate that the cell-based bioassay systems are sensitive and reliable tools for screening of QS activators and inhibitors. This study also suggests that furanones are potentially important QS inhibitors for many LuxR-type activator proteins.</P>
SADEA-II:Ageneralizedmethodforefficient global optimization ofantennadesign
Bo Liu,Slawomir Koziel,Nazar Ali 한국CDE학회 2017 Journal of computational design and engineering Vol.4 No.2
Efficiency improvementisofgreatsignificance forsimulation-drivenantennadesignoptimizationmethodsbasedonevolutionaryalgorithms(EAs). Thetwomainefficiency enhancementmethodsexploitdata-drivensurrogatemodelsand/ormulti-fidelity simulationmodelstoassistEAs. However, optimizationmethodsbasedonthelattereitherneedadhoclow-fidelity modelsetuporhavedifficulties inhandlingproblemswithmore thanafewdesignvariables,whichisamainbarrierforindustrialapplications.Toaddressthisissue,ageneralizedthreestagemulti-fidelitysimulation-model assistedantennadesignoptimizationframeworkisproposedinthispaper.Themainideasincludeintroductionofanoveldatamining stagehandlingthediscrepancybetweensimulationmodelsofdifferent fidelities, andasurrogate-model-assistedcombinedglobalandlocal searchstageforefficient high-fidelity simulationmodel-basedoptimization.ThisframeworkisthenappliedtoSADEA,whichisastate-of-the-art surrogate-model-assistedantennadesignoptimizationmethod,constructingSADEA-II.ExperimentalresultsindicatethatSADEA-IIsuccessfully handlesvariousdiscrepancybetweensimulationmodelsandconsiderablyoutperformsSADEAintermsofcomputationalefficiencywhile ensuringimproveddesignquality.
Liu, Bo,Tang, Chaojun,Chen, Jing,Xie, Ningyan,Tang, Huang,Zhu, Xiaoqin,Park, Gun-sik Springer US 2018 NANOSCALE RESEARCH LETTERS Vol.13 No.1
<P>It is well known that a suspended monolayer graphene has a weak light absorption efficiency of about 2.3% at normal incidence, which is disadvantageous to some applications in optoelectronic devices. In this work, we will numerically study multiband and broadband absorption enhancement of monolayer graphene over the whole visible spectrum, due to multiple magnetic dipole resonances in metamaterials. The unit cell of the metamaterials is composed of a graphene monolayer sandwiched between four Ag nanodisks with different diameters and a SiO<SUB>2</SUB> spacer on an Ag substrate. The near-field plasmon hybridizations between individual Ag nanodisks and the Ag substrate form four independent magnetic dipole modes, which result into multiband absorption enhancement of monolayer graphene at optical frequencies. When the resonance wavelengths of the magnetic dipole modes are tuned to approach one another by changing the diameters of the Ag nanodisks, a broadband absorption enhancement can be achieved. The position of the absorption band in monolayer graphene can be also controlled by varying the thickness of the SiO<SUB>2</SUB> spacer or the distance between the Ag nanodisks. Our designed graphene light absorber may find some potential applications in optoelectronic devices, such as photodetectors.</P>