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Items: 16

1.

Applications of Copolymers Consisting of 2,6-di(9H-carbazol-9-yl)pyridine and 3,6-di(2-thienyl)carbazole Units as Electrodes in Electrochromic Devices.

Kuo CW, Chang JC, Huang YT, Chang JK, Lee LT, Wu TY.

Materials (Basel). 2019 Apr 16;12(8). pii: E1251. doi: 10.3390/ma12081251.

2.

Electrochromic Devices Based on Poly(2,6-di(9H-carbazol-9-yl)pyridine)-Type Polymer Films and PEDOT-PSS.

Kuo CW, Wu BW, Chang JK, Chang JC, Lee LT, Wu TY, Ho TH.

Polymers (Basel). 2018 May 31;10(6). pii: E604. doi: 10.3390/polym10060604.

3.

Applications of Electrochromic Copolymers Based on Tris(4-carbazoyl-9-ylphenyl)amine and Bithiophene Derivatives in Electrochromic Devices.

Kuo CW, Chang JC, Lee PY, Wu TY, Huang YC.

Materials (Basel). 2018 Oct 3;11(10). pii: E1895. doi: 10.3390/ma11101895.

4.

Chaperonin 60 sustains osteoblast autophagy and counteracts glucocorticoid aggravation of osteoporosis by chaperoning RPTOR.

Lian WS, Ko JY, Chen YS, Ke HJ, Wu SL, Kuo CW, Wang FS.

Cell Death Dis. 2018 Sep 17;9(10):938. doi: 10.1038/s41419-018-0970-6.

5.

Poly(tris(4-carbazoyl-9-ylphenyl)amine)/Three Poly(3,4-ethylenedioxythiophene) Derivatives in Complementary High-Contrast Electrochromic Devices.

Kuo CW, Chang JK, Lin YC, Wu TY, Lee PY, Ho TH.

Polymers (Basel). 2017 Oct 23;9(10). pii: E543. doi: 10.3390/polym9100543.

6.
7.

Filter quality of electret masks in filtering 14.6-594 nm aerosol particles: Effects of five decontamination methods.

Lin TH, Chen CC, Huang SH, Kuo CW, Lai CY, Lin WY.

PLoS One. 2017 Oct 12;12(10):e0186217. doi: 10.1371/journal.pone.0186217. eCollection 2017.

8.

mtDNA as a Mediator for Expression of Hypoxia-Inducible Factor 1α and ROS in Hypoxic Neuroblastoma Cells.

Kuo CW, Tsai MH, Lin TK, Tiao MM, Wang PW, Chuang JH, Chen SD, Liou CW.

Int J Mol Sci. 2017 Jun 7;18(6). pii: E1220. doi: 10.3390/ijms18061220.

9.

Impact of polyethyleneglycol addition on diffusion coefficients in binary ionic liquid electrolytes composed of dicationic ionic liquid and polyethyleneglycol.

Wu TY, Su SG, Chiu CL, Kuo CW, Tung YH.

Magn Reson Chem. 2018 Feb;56(2):86-94. doi: 10.1002/mrc.4609. Epub 2017 Jun 8.

PMID:
28499327
10.
11.

Transcriptional activation of Epstein-Barr virus BRLF1 by USF1 and Rta.

Hung CC, Kuo CW, Wang WH, Chang TH, Chang PJ, Chang LK, Liu ST.

J Gen Virol. 2015 Sep;96(9):2855-66. doi: 10.1099/jgv.0.000230. Epub 2015 Jun 30.

PMID:
26297580
12.

Assembly of Epstein-Barr Virus Capsid in Promyelocytic Leukemia Nuclear Bodies.

Wang WH, Kuo CW, Chang LK, Hung CC, Chang TH, Liu ST.

J Virol. 2015 Sep;89(17):8922-31. Epub 2015 Jun 17.

14.

Mapping signals that are important for nuclear and nucleolar localization in MCRS2.

Kuo CW, Wang WH, Liu ST.

Mol Cells. 2011 Jun;31(6):547-52. doi: 10.1007/s10059-011-1033-3. Epub 2011 Apr 20.

15.

Enhancement of transactivation activity of Rta of Epstein-Barr virus by RanBPM.

Chang LK, Liu ST, Kuo CW, Wang WH, Chuang JY, Bianchi E, Hong YR.

J Mol Biol. 2008 May 30;379(2):231-42. doi: 10.1016/j.jmb.2008.04.011. Epub 2008 Apr 10.

PMID:
18455188
16.

Post-translational modification of Rta of Epstein-Barr virus by SUMO-1.

Chang LK, Lee YH, Cheng TS, Hong YR, Lu PJ, Wang JJ, Wang WH, Kuo CW, Li SS, Liu ST.

J Biol Chem. 2004 Sep 10;279(37):38803-12. Epub 2004 Jun 30.

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