X
Search Filters
Format Format
Format Format
X
Sort by Item Count (A-Z)
Filter by Count
Journal Article (1227) 1227
Publication (128) 128
Book Chapter (7) 7
Book Review (6) 6
Conference Proceeding (3) 3
Dissertation (3) 3
Book / eBook (2) 2
more...
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
crystallography (485) 485
index medicus (364) 364
humans (347) 347
materials science, multidisciplinary (295) 295
physics, applied (293) 293
animals (281) 281
analysis (184) 184
growth (143) 143
mice (130) 130
proteins (128) 128
male (124) 124
phospholipase a2 (105) 105
female (102) 102
biochemistry & molecular biology (100) 100
crystal growth (96) 96
crystals (95) 95
cell biology (92) 92
immunology (90) 90
a2. growth from solutions (89) 89
computer simulation (87) 87
expression (85) 85
oncology (83) 83
a2. single crystal growth (82) 82
growth from solutions (81) 81
a1. computer simulation (76) 76
cancer (76) 76
phospholipases a2 (74) 74
a2. czochralski method (69) 69
rats (69) 69
research (69) 69
single crystal growth (68) 68
a1. crystal morphology (67) 67
cell line, tumor (63) 63
kristallwachstum (63) 63
peptides (63) 63
article (62) 62
a2. growth from melt (60) 60
amino acid sequence (60) 60
czochralski method (60) 60
inflammation (59) 59
medicine (59) 59
signal transduction (59) 59
crystal morphology (58) 58
phospholipase a (58) 58
enzymes (57) 57
research article (57) 57
crystallization (56) 56
phospholipase (55) 55
physiological aspects (54) 54
cells, cultured (53) 53
phospholipases a - metabolism (53) 53
growth from melt (52) 52
health aspects (52) 52
phospholipases (52) 52
gene expression (51) 51
science (51) 51
silicon (51) 51
hla-a2 antigen - immunology (49) 49
immunotherapy (49) 49
multidisciplinary sciences (49) 49
nucleation (49) 49
crystal-growth (48) 48
cell line (47) 47
lipids (47) 47
a1. characterization (46) 46
activation (46) 46
molecular sequence data (46) 46
convection (45) 45
apoptosis (44) 44
pharmacology & pharmacy (44) 44
b1. oxides (43) 43
single-crystals (43) 43
t cells (43) 43
a2. bridgman technique (40) 40
heat transfer (40) 40
phospholipases a2 - metabolism (40) 40
a1. heat transfer (39) 39
crystal structure (39) 39
monokristall (39) 39
neurosciences (39) 39
tumors (39) 39
antigens (38) 38
cells (38) 38
medicine, research & experimental (38) 38
mice, inbred c57bl (38) 38
characterization (37) 37
in-vitro (37) 37
life sciences (37) 37
phosphorylation (37) 37
protein binding (37) 37
bridgman technique (36) 36
dendritic cells (36) 36
a2. growth from vapor (35) 35
biotechnology & applied microbiology (35) 35
lymphocytes (35) 35
methods (35) 35
immunohistochemistry (34) 34
oxides (34) 34
a1. x-ray diffraction (33) 33
annexin a2 - metabolism (33) 33
more...
Library Location Library Location
Language Language
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


Journal of Crystal Growth, ISSN 0022-0248, 2002, Volume 234, Issue 1, pp. 47 - 62
Journal Article
Journal of Crystal Growth, ISSN 0022-0248, 2001, Volume 230, Issue 1, pp. 210 - 216
This work focuses on the optimal control of two typical processes in the context of industrial crystal growth. First, the annealing of bulk GaAs crystals is... 
A1. Computer simulation | B1. Arsenates | A2. Gradient freeze technique | A2. Single crystal growth | single crystal growth | computer simulation | arsenates | CRYSTALLOGRAPHY | gradient freeze technique | NUMERICAL-SIMULATION | GAAS-CRYSTALS
Journal Article
Journal of Crystal Growth, ISSN 0022-0248, 2009, Volume 311, Issue 8, pp. 2501 - 2507
A mathematical model developed for an optimal thermal control of the melt-crystal interface in vertical gradient freeze growth of GaAs is presented. The... 
A1. Solidification | A2. Gradient freeze technique | A1. Optimal control | A1. Fluid flows | A1. Temperature fields | B1. Gallium arsenide | Temperature fields | PHYSICS, APPLIED | Gradient freeze technique | Gallium arsenide | Optimal control | MATERIALS SCIENCE, MULTIDISCIPLINARY | GROWTH | CRYSTALLOGRAPHY | Fluid flows | Solidification | Analysis
Journal Article
Computers and Chemical Engineering, ISSN 0098-1354, 06/2013, Volume 53, pp. 164 - 177
This paper presents the comparison of four control strategies for the A /O WWTP configuration for simultaneous C, N and P removal. The control strategies: (i)... 
MPC | Control | WWTP | Optimization | A2/O | EBPR | A/O | DENITRIFICATION | ACTIVATED-SLUDGE | PERFORMANCE | TREATMENT-PLANT DESIGN | MICROBIOLOGY | MODEL | ENGINEERING, CHEMICAL | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | OPERATION | BIOLOGICAL PHOSPHATE REMOVAL | BENCHMARK | ACETATE
Journal Article
Journal of Crystal Growth, ISSN 0022-0248, 08/2012, Volume 352, Issue 1, pp. 9 - 15
The Kyropoulos (KY) method is commonly used to grow large sized sapphire single crystals. The shape of the sapphire crystal thus grown is determined by the... 
A2. Crystal growth | B2. Kyropoulos | A1. Numerical | B1. Sapphire | Crystal growth | SYSTEM | PHYSICS, APPLIED | Numerical | FLUID-FLOW | MELT | MATERIALS SCIENCE, MULTIDISCIPLINARY | CRYSTALLOGRAPHY | Kyropoulos | TRANSPORT | HEAT-EXCHANGER-METHOD | Sapphire | NUMERICAL-SIMULATION | Energy conservation | Mechanical engineering | China | Heaters | Single crystals | Heating equipment | Furnaces | Crystals | Melts
Journal Article
Journal of Crystal Growth, ISSN 0022-0248, 09/2015, Volume 426, pp. 228 - 233
Recently, the studies on ZnO nanostructure characteristics and their fabrication methods have been increased significantly in order to be able to use its... 
A1. Nanorod | A2. Sol–gel | A1. ZnO | A2. Microwave-assisted | A2. Seed layer | A2. Sol-gel | Seed layer | PHYSICS, APPLIED | Sol-gel | MATERIALS SCIENCE, MULTIDISCIPLINARY | ZnO | Microwave-assisted | CRYSTALLOGRAPHY | Nanorod | ARRAYS | ZINC-OXIDE NANORODS | HYDROTHERMAL SYNTHESIS | Zinc oxide | Annealing | Electric properties | Crystal growth | Seeds | Spinners | Sol gel process | Remedies | Nanostructure | Optimization
Journal Article
Journal Article
Journal of Crystal Growth, ISSN 0022-0248, 02/2018, Volume 483, pp. 241 - 244
In Czochralski silicon (CZ-Si) crystal growth, packed Si chunks experience collapse and volume shrinkage during the melting process. The axial movements of the... 
A1. Mass transfer | A1. Computer simulation | A1. Impurities | A2. Czochralski method | PHYSICS, APPLIED | Computer simulation | Impurities | MATERIALS SCIENCE, MULTIDISCIPLINARY | Czochralski method | CRYSTALLOGRAPHY | Mass transfer | Local transit | Analysis | Silicon
Journal Article