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Photocatalytic and Hydrophilic Properties of TiO₂/ Fe₂O₃ Composite Films
Q. J. Liu,Q. L,X. H. Wu,G. Q. Zhang,Z. Q. Gao,G. X. Chen 한국진공학회(ASCT) 2002 Journal of Korean Vacuum Science & Technology Vol.6 No.1
TiO₂/Fe₂O₃ composite thin films were prepared on common glass substrates by sol-gel processing and dip-drawing method. The effect of Fe₂O₃ content on the photocatalytic and hydrophilic properties of composite films was studied. The results indicate that the photocatalytic activities of composite TiO₂ films are superior to that of pure TiO₂ film, and the film containing 0.5% Fe₂O₃ has the best photocatalytic activity. The hydrophilicity is difference with variant Fe₂O₃ content, the films containing 0.05%~0.1% Fe₂O₃ have the best hydrophilicity and their contact angles are 0°.
Gao, M-Q,Choi, Y-P,Kang, S,Youn, J H,Cho, N-H Macmillan Publishers Limited 2010 Oncogene Vol.29 No.18
Cancer stem cells (CSCs) have been identified in solid tumors and cancer cell lines. In this study, we isolated a series of cancer cell clones, which were heterogeneous in growth rate, cell cycle distribution and expression profile of genes and proteins, from ovarian tumor specimens of a patient and identified a sub-population enriched for ovarian CSCs defined by CD24 phenotype. Experiments in vitro demonstrated CD24<SUP>+</SUP> sub-population possessed stem cell-like characteristics of remaining quiescence and more chemoresistant compared with CD24<SUP>−</SUP> fraction, as well as a specific capacity for self-renewal and differentiation. In addition, injection of 5 × 10<SUP>3</SUP> CD24<SUP>+</SUP> cells was able to form tumor xenografts in nude mice, whereas equal number of CD24<SUP>−</SUP> cells remained nontumorigenic. We also found that CD24<SUP>+</SUP> cells expressed higher mRNA levels of some ‘stemness’ genes, including Nestin, β-catenin, Bmi-1, Oct4, Oct3/4, Notch1 and Notch4 which were involved in modulating many functions of stem cells, and lower E-cadherin mRNA level than CD24<SUP>−</SUP> cells. Altogether, these observations suggest human ovarian tumor cells are organized as a hierarchy and CD24 demarcates an ovarian cancer-initiating cell population. These findings will have important clinical applications for developing effective therapeutic strategies to treat ovarian cancer.
A fast precise integration method for structural dynamics problems
Q. Gao,F. Wu,H.W. Zhang,W.X. Zhong,W.P. Howson,F.W. Williams 국제구조공학회 2012 Structural Engineering and Mechanics, An Int'l Jou Vol.43 No.1
A fast precise integration method (FPIM) is proposed for solving structural dynamics problems. It is based on the original precise integration method (PIM) that utilizes the sparse nature of the system matrices and especially the physical features found in structural dynamics problems. A physical interpretation of the matrix exponential is given, which leads to an efficient algorithm for both its evaluation and subsequently the solution of large-scale structural dynamics problems. The proposed algorithm is accurate, efficient and requires less computer storage than previous techniques.
Propagation of non-uniformly modulated evolutionary random waves in a stratified viscoelastic solid
Gao, Q.,Howson, W.P.,Watson, A.,Lin, J.H. Techno-Press 2006 Structural Engineering and Mechanics, An Int'l Jou Vol.24 No.2
The propagation of non-uniformly modulated, evolutionary random waves in viscoelastic, transversely isotropic, stratified materials is investigated. The theory is developed in the context of a multi-layered soil medium overlying bedrock, where the material properties of the bedrock are considered to be much stiffer than those of the soil and the power spectral density of the random excitation is assumed to be known at the bedrock. The governing differential equations are first derived in the frequency/wave-number domain so that the displacement response of the ground may be computed. The eigen-solution expansion method is then used to solve for the responses of the layers. This utilizes the precise integration method, in combination with the extended Wittrick-Williams algorithm, to obtain all the eigen-solutions of the ordinary differential equation. The recently developed pseudo-excitation method for structural random vibration is then used to determine the solution of the layered soil responses.
A fast precise integration method for structural dynamics problems
Gao, Q.,Wu, F.,Zhang, H.W.,Zhong, W.X.,Howson, W.P.,Williams, F.W. Techno-Press 2012 Structural Engineering and Mechanics, An Int'l Jou Vol.43 No.1
A fast precise integration method (FPIM) is proposed for solving structural dynamics problems. It is based on the original precise integration method (PIM) that utilizes the sparse nature of the system matrices and especially the physical features found in structural dynamics problems. A physical interpretation of the matrix exponential is given, which leads to an efficient algorithm for both its evaluation and subsequently the solution of large-scale structural dynamics problems. The proposed algorithm is accurate, efficient and requires less computer storage than previous techniques.
Gao, M.Q.,Kim, B.G.,Kang, S.,Choi, Y.P.,Yoon, J.H.,Cho, N.H. Elsevier ; Elsevier Science Pub. Co 2013 Cancer letters Vol.336 No.1
We demonstrate here increased expression of ADAM17 protein in cancer-associated fibroblasts (CAFs) extracted from human breast carcinomas compared with donor-matched normal fibroblasts, and TGF-α secretion positively correlates with ADAM17 expression in these cells. In SK-BR-3 cells co-cultured with CAFs, CAF-secreted TGF-α promotes cell proliferation by activation of EGFR, Akt, and ERK, but it does not promote cell migration. Furthermore, anti-TGF-α neutralizing antibodies antagonize the CAF-dependent increase in proliferation and activation of EGFR, Akt and ERK. Thus, pharmacologic inhibition of ADAM17 and TGF-α may have therapeutic potential for the treatment of breast cancer when fibroblast-directed therapy is considered.
Ni and CoO spin cantings induced by Fe layer in Ni/CoO/Fe/vicinal MgO(001)
Li, Q.,Yang, M.,N'Diaye, A. T.,Dong, Q. Y.,Scholl, A.,Young, A. T.,Gao, N.,Arenholz, E.,Hwang, C.,Li, J.,Qiu, Z. Q. American Physical Society 2017 Physical Review B Vol.96 No.21
<P>Using element-resolved x-raymagnetic circular dichroism and x-raymagnetic linear dichroism measurements, we studied Ni/CoO/vicinal MgO(001) and Ni/CoO/Fe/vicinal MgO(001) systems at 350 and 78 K. Above the CoO Neel temperature, the Ni magnetization is fully in plane and parallel to the atomic steps in both systems due to step-induced magnetic anisotropy. Below the CoO Neel temperature, the CoO spins in Ni/CoO/vicinal MgO(001) are fully in plane and parallel to the atomic steps and the Ni magnetization is fully in plane and perpendicular to the atomic steps due to the 90 degrees Ni/CoO magnetic coupling. The CoO spins in Ni/CoO/Fe/vicinal MgO(001), however, develop an out-of-plane canted spin component in addition to the in-plane component parallel to the atomic steps. Consequently, the Ni magnetization is canted towards the out-of-plane direction by an appreciable angle. Photoemission electron microscopy imaging shows a 90 degrees interfacial magnetic coupling at both the Ni/CoO and the CoO/Fe interfaces and an absence of a direct interlayer coupling, showing that the Ni spin canting is due to its coupling to the canted CoO spin components which is caused by the underlying ferromagnetic Fe layer in Ni/CoO/Fe/vicinal MgO(001).</P>