| 1 |
Feasibility and performance study on hybrid air source heat pump system for ultra-low energy building in severe cold region of China
Xu W, Liu CP, Li AG, Li J, Qiao BA
Renewable Energy, 146, 2124, 2020 |
| 2 |
Natural heat transfer air-conditioning terminal device and its system configuration for ultra-low energy buildings
Shu HW, Bie X, Zhang HL, Xu XY, Du Y, Ma Y, Duanmu L, Cao GY
Renewable Energy, 154, 1113, 2020 |
| 3 |
Low-energy reverse osmosis membrane with high boron rejection by surface modification with a polysaccharide
Raval H, Sundarkumar V
Canadian Journal of Chemical Engineering, 97, 1575, 2019 |
| 4 |
Impact of zero energy buildings on medium-to-long term building energy consumption in China
Yang XY, Zhang SC, Xu W
Energy Policy, 129, 574, 2019 |
| 5 |
Characterisation of ultra-shallow disorder profiles and dielectric functions in ion implanted Si
Mohacsi I, Petrik P, Fried M, Lohner T, van den Berg JA, Reading MA, Giubertoni D, Barozzi M, Parisini A
Thin Solid Films, 519(9), 2847, 2011 |
| 6 |
Cesium near-surface concentration in low energy, negative mode dynamic SIMS
Berghmans B, Van Daele B, Geenen L, Conard T, Franquet A, Vandervorst W
Applied Surface Science, 255(4), 1316, 2008 |
| 7 |
uleSIMS characterization of silver reference surfaces
Palitsin VV, Dowsett MG, de la Mata BG, Oloff IW, Gibbons R
Applied Surface Science, 252(19), 7132, 2006 |
| 8 |
Different optical conductivity enhancement (OCE) protocols to eliminate charging during ultra low energy SIMS profiling of semiconductor and semi-insulating materials
Morris RJH, Dowsett MG, Chang RJH
Applied Surface Science, 252(19), 7221, 2006 |
| 9 |
Improved near surface characterization of shallow arsenic distribution by SIMS depth profiling
Buyuklimanli TH, Marino JW, Novak SW
Applied Surface Science, 231-2, 636, 2004 |
| 10 |
Depth profiling using ultra-low-energy secondary ion mass spectrometry
Dowsett MG
Applied Surface Science, 203, 5, 2003 |
