Search Results - (Author, Cooperation:S. T. Yang)
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1Latest Papers from Table of Contents or Articles in PressFan, J., Rosenfeld, D., Zhang, Y., Giangrande, S. E., Li, Z., Machado, L. A. T., Martin, S. T., Yang, Y., Wang, J., Artaxo, P., Barbosa, H. M. J., Braga, R. C., Comstock, J. M., Feng, Z., Gao, W., Gomes, H. B., Mei, F., Pöhlker, C., Pöhlker, M. L., Pöschl, U., de Souza, R. A. F.
American Association for the Advancement of Science (AAAS)
Published 2018Staff ViewPublication Date: 2018-01-26Publisher: American Association for the Advancement of Science (AAAS)Print ISSN: 0036-8075Electronic ISSN: 1095-9203Topics: BiologyChemistry and PharmacologyGeosciencesComputer ScienceMedicineNatural Sciences in GeneralPhysicsKeywords: Atmospheric SciencePublished by: -
2Latest Papers from Table of Contents or Articles in PressY. G. Tong ; W. F. Shi ; D. Liu ; J. Qian ; L. Liang ; X. C. Bo ; J. Liu ; H. G. Ren ; H. Fan ; M. Ni ; Y. Sun ; Y. Jin ; Y. Teng ; Z. Li ; D. Kargbo ; F. Dafae ; A. Kanu ; C. C. Chen ; Z. H. Lan ; H. Jiang ; Y. Luo ; H. J. Lu ; X. G. Zhang ; F. Yang ; Y. Hu ; Y. X. Cao ; Y. Q. Deng ; H. X. Su ; W. S. Liu ; Z. Wang ; C. Y. Wang ; Z. Y. Bu ; Z. D. Guo ; L. B. Zhang ; W. M. Nie ; C. Q. Bai ; C. H. Sun ; X. P. An ; P. S. Xu ; X. L. Zhang ; Y. Huang ; Z. Q. Mi ; D. Yu ; H. W. Yao ; Y. Feng ; Z. P. Xia ; X. X. Zheng ; S. T. Yang ; B. Lu ; J. F. Jiang ; B. Kargbo ; F. C. He ; G. F. Gao ; W. C. Cao
Nature Publishing Group (NPG)
Published 2015Staff ViewPublication Date: 2015-05-15Publisher: Nature Publishing Group (NPG)Print ISSN: 0028-0836Electronic ISSN: 1476-4687Topics: BiologyChemistry and PharmacologyMedicineNatural Sciences in GeneralPhysicsPublished by: -
3Latest Papers from Table of Contents or Articles in PressJ. A. Marozas, M. Hohenberger, M. J. Rosenberg, D. Turnbull, T. J. B. Collins, P. B. Radha, P. W. McKenty, J. D. Zuegel, F. J. Marshall, S. P. Regan, T. C. Sangster, W. Seka, E. M. Campbell, V. N. Goncharov, M. W. Bowers, J.-M. G. Di Nicola, G. Erbert, B. J. Mac; Gowan, L. J. Pelz, and S. T. Yang
American Physical Society (APS)
Published 2018Staff ViewPublication Date: 2018-02-23Publisher: American Physical Society (APS)Print ISSN: 0031-9007Electronic ISSN: 1079-7114Topics: PhysicsKeywords: Plasma and Beam PhysicsPublished by: -
4Latest Papers from Table of Contents or Articles in PressY. G. Tong ; W. F. Shi ; D. Liu ; J. Qian ; L. Liang ; X. C. Bo ; J. Liu ; H. G. Ren ; H. Fan ; M. Ni ; Y. Sun ; Y. Jin ; Y. Teng ; Z. Li ; D. Kargbo ; F. Dafae ; A. Kanu ; C. C. Chen ; Z. H. Lan ; H. Jiang ; Y. Luo ; H. J. Lu ; X. G. Zhang ; F. Yang ; Y. Hu ; Y. X. Cao ; Y. Q. Deng ; H. X. Su ; W. S. Liu ; Z. Wang ; C. Y. Wang ; Z. Y. Bu ; Z. D. Guo ; L. B. Zhang ; W. M. Nie ; C. Q. Bai ; C. H. Sun ; X. P. An ; P. S. Xu ; X. L. Zhang ; Y. Huang ; Z. Q. Mi ; D. Yu ; H. W. Yao ; Y. Feng ; Z. P. Xia ; X. X. Zheng ; S. T. Yang ; B. Lu ; J. F. Jiang ; B. Kargbo ; F. C. He ; G. F. Gao ; W. C. Cao
Nature Publishing Group (NPG)
Published 2015Staff ViewPublication Date: 2015-08-27Publisher: Nature Publishing Group (NPG)Print ISSN: 0028-0836Electronic ISSN: 1476-4687Topics: BiologyChemistry and PharmacologyMedicineNatural Sciences in GeneralPhysicsPublished by: -
5Articles: DFG German National LicensesStaff View
ISSN: 1089-7623Source: AIP Digital ArchiveTopics: PhysicsElectrical Engineering, Measurement and Control TechnologyNotes: This paper describes a new type of electron beam evaporation intense beam current broad beam metal ion source. In this ion source, a focusing electron beam is used to bombard and vaporize the metal and other solid elements within the same chamber where the metal and solid element atoms are ionized by arc discharge. It can operate with gaseous and solid elements. Both pure or mixed ions with single or multiple charge states can also be extracted from this source. The performance and the characteristics of this source have tested. Ion beams of a series of elements, which include C, W, Ta, Mo, Cr, Ti, B, Cu, Ni, AI, Ar, N, etc., have been extracted, and the highest beam current is up to 90 mA. By using this ion beam bombardment, a good mixture between substrate and film was observed. Deposition rates as high as 25 A(ring)/s for Mo, 30 A(ring)/s for Ti, and 80 A(ring)/s for C have been obtained. The structure of the ion source and the experimental results will be presented in this paper. © 1996 American Institute of Physics.Type of Medium: Electronic ResourceURL: -
6Articles: DFG German National LicensesStaff View
ISSN: 1749-6632Source: Blackwell Publishing Journal Backfiles 1879-2005Topics: Natural Sciences in GeneralType of Medium: Electronic ResourceURL: -
7Articles: DFG German National LicensesStaff View
ISSN: 0039-9140Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002Topics: Chemistry and PharmacologyType of Medium: Electronic ResourceURL: -
8Articles: DFG German National LicensesStaff View
ISSN: 0883-2889Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002Topics: Energy, Environment Protection, Nuclear Power EngineeringType of Medium: Electronic ResourceURL: -
9Articles: DFG German National LicensesStaff View
ISSN: 0304-8853Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002Topics: PhysicsType of Medium: Electronic ResourceURL: -
10Articles: DFG German National LicensesStaff View
ISSN: 1432-0614Source: Springer Online Journal Archives 1860-2000Topics: BiologyProcess Engineering, Biotechnology, Nutrition TechnologyNotes: Abstract A continuous bioreactor packed with a fibrous matrix was set up. Cells of Pediococcus acidilactici PO2 were inoculated and MRS broth was fed gradually until cell growth and immobilization were achieved. Kinetics of fermentation and production of bacteriocin were investigated at dilution rates ranging from 0.63 day-1 to 1.58 day-1 and at pH values that varied between 4.0 and 5.5. A maximum bacteriocin activity of 6400 AU/ml was detected when the medium was fermented at dilution rates of at least 1.19 day-1 and the pH controlled at 4.5. The maximum bacteriocin productivity was 1.0×107 AUl-1 day-1 at a dilution rate of 1.58 day-1 and pH 4.5. At this high dilution rate, 1.21 g cells/l medium was produced, 95.9% of the glucose in MRS broth was utilized, and 15.1 g lactic acid/l accumulated in the bioreactor effluent. The bioreactor was operated continuously for 3 months without encountering any clogging, degeneration, or contamination problems, indicating good long-term stability of the bioreactor for bacteriocin production. About 94% of the cells in the bioreactor were immobilized, and the remainder were suspended in the medium. According to scanning electron microscopic observations, cell immobilization in the fibrous matrix was attained by natural attachment to fiber surfaces and entrapment in the void volume within the fibrous matrix. In conclusion, conditions for the optimum continuous production of pediocin were defined; this may facilitate the development of large-scale industrial processes for production of this bacteriocin.Type of Medium: Electronic ResourceURL: -
11Articles: DFG German National LicensesStaff View
ISSN: 0006-3592Keywords: Chemistry ; Biochemistry and BiotechnologySource: Wiley InterScience Backfile Collection 1832-2000Topics: BiologyProcess Engineering, Biotechnology, Nutrition TechnologyNotes: Kinetics of methanogenesis from acetate was studied using pure cultures of Methanosarcina barkeri and Methanosarcina mazei. Methane formation was found to be associated with cell growth. Nearly equimolar methane was produced from acetate during the methanogenic growth, and about 1.94 g of cells were formed from each mole of acetate consumed. Cell growth can be estimated from methane production. Significant substrate inhibition was found when acetate concentration was higher than 0.12 M. Among the three methanogenic strains studied, M. mazei strain S6 had the highest specific growth rate at all acetate concentrations studied and was least sensitive to environmental factors investigated (e.g., acetate concentration). The maximum specific growth rate found for strain S6 was 0.022 hr-1 at acetic acid concentration around 7 g/L. The other two strains studied were M. barkeri strain 227 and strain MS. Growth of M. barkeri was completely inhibited at sodium acetate concentrations higher than 0.24 M. The maximum specific growth rate found for strains 227 and MS was 0.019 and 0.021 h-1 at acetic acid concentrations of 3.6 and 6.8 g/L, respectively. A kinetic model with substrate inhibition was developed and can be used to simulate the methane formation from M. mazei strain S6 grown on acetate at 35°C, pH 7.Additional Material: 8 Ill.Type of Medium: Electronic ResourceURL: -
12Articles: DFG German National LicensesStaff View
ISSN: 0006-3592Keywords: Chemistry ; Biochemistry and BiotechnologySource: Wiley InterScience Backfile Collection 1832-2000Topics: BiologyProcess Engineering, Biotechnology, Nutrition TechnologyNotes: Fermentation kinetics of Clostridium formicoaceticum grown on lactate at pH 7.0 and 35°C was studied. Acetate was the only fermentation product and its production was growth associated. The growth of this bacterium was insensitive to the lactate concentrations studied, but was inhibited by acetic acid. A Monod-type expression with product inhibition similar to the noncompetitive inhibition of enzyme kinetics was used to model the batch fermentation. An integrated equation was developed and used to help estimating the kinetic parameters in the model. This mathematical model can be used to simulate the homoacetic fermentation of lactate by C. formicoaceticum at pH 7.0 and 35°C.Additional Material: 7 Ill.Type of Medium: Electronic ResourceURL: