화학공학소재연구정보센터
검색결과 : 12건
No. Article
1 Molecular beam epitaxy, atomic layer deposition, and multiple functions connected via ultra-high vacuum
Lin KY, Wan HW, Chen KHM, Fanchiang YT, Chen WS, Lin YH, Cheng YT, Chen CC, Lin HY, Young LB, Cheng CP, Pi TW, Kwo J, Hong M
Journal of Crystal Growth, 512, 223, 2019
2 Atomic nature of the Schottky barrier height formation of the Ag/GaAs(001)-2 x 4 interface: An in-situ synchrotron radiation photoemission study
Cheng CP, Chen WS, Lin KY, Wei GJ, Cheng YT, Lin YH, Wan HW, Pi TW, Tung RT, Kwo J, Hong MW
Applied Surface Science, 393, 294, 2017
3 Effective surface passivation of In0.53Ga0.47As(001) using molecular beam epitaxy and atomic layer deposited HfO2 - A comparative study
Hong M, Wan HW, Chang P, Lin TD, Chang YH, Lee WC, Pi TW, Kwo J
Journal of Crystal Growth, 477, 159, 2017
4 GaAs metal-oxide-semiconductor push with molecular beam epitaxy Y2O3 - In comparison with atomic layer deposited Al2O3
Wan HW, Lin KY, Cheng CK, Su YK, Lee WC, Hsu CH, Pi TW, Kwo J, Hong M
Journal of Crystal Growth, 477, 179, 2017
5 Enhancement of biogas production in anaerobic co-digestion by ultrasonic pretreatment
Zou SZ, Wang XJ, Chen YL, Wan HW, Feng YZ
Energy Conversion and Management, 112, 226, 2016
6 Anaerobic co-digestion of animal manure and wheat straw for optimized biogas production by the addition of magnetite and zeolite
Liu LL, Zhang T, Wan HW, Chen YL, Wang XJ, Yang GH, Ren GX
Energy Conversion and Management, 97, 132, 2015
7 Coupling of FRET and photoinduced electron transfer in regioregular silylene-spaced energy donor-acceptor-electron donor copolymers
Wan HW, Yeh MY, Chen CH, Lim TS, Fann W, Luh TY
Macromolecules, 41(8), 2762, 2008
8 Thermochemical studies on langbeinite-type double sulphate salts, K2M2(SO4)(3)
Zhou YP, Xu F, Zhang R, Wan HW
Thermochimica Acta, 371(1-2), 13, 2001
9 Thermochemical studies on the langbeinite-type double-sulfate salts, (NH4)(2)M-2(SO4)(3)
Zhou YP, Xu F, Mo XM, Wan HW
Thermochimica Acta, 380(1), 43, 2001
10 A thermochemical study of K2M(IO3)(4)center dot 2H2O(M=Mg2+, Ni2+, Zn2+)
Hu JC, Wan HW, Xu MF, Wang TZ, Yu Y, Qu SS
Thermochimica Acta, 345(2), 135, 2000