X
Search Filters
Format Format
Format Format
X
Sort by Item Count (A-Z)
Filter by Count
Journal Article (32678) 32678
Publication (1880) 1880
Conference Proceeding (744) 744
Book Chapter (439) 439
Newspaper Article (181) 181
Magazine Article (150) 150
Dissertation (119) 119
Book Review (64) 64
Newsletter (54) 54
Trade Publication Article (25) 25
Paper (11) 11
Government Document (8) 8
Reference (5) 5
Web Resource (5) 5
Book / eBook (4) 4
Data Set (2) 2
Journal / eJournal (1) 1
Standard (1) 1
more...
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
hydrophobicity (30871) 30871
index medicus (7559) 7559
proteins (4805) 4805
analysis (3783) 3783
contact angle (3320) 3320
chemistry, physical (3233) 3233
hydrophobic and hydrophilic interactions (2888) 2888
nanoparticles (2706) 2706
humans (2651) 2651
chemistry, multidisciplinary (2612) 2612
chemistry (2484) 2484
biochemistry & molecular biology (2463) 2463
materials science, multidisciplinary (2419) 2419
organic chemistry (2376) 2376
water (2301) 2301
adsorption (2296) 2296
polymers (2290) 2290
multidisciplinary sciences (2285) 2285
animals (2275) 2275
wettability (2042) 2042
polymer science (1966) 1966
hydrophobic surfaces (1858) 1858
microbiology (1813) 1813
adhesion (1804) 1804
bacteria (1774) 1774
amino acids (1684) 1684
surface properties (1658) 1658
hydrophobizität (1656) 1656
membranes (1633) 1633
peptides (1633) 1633
science (1616) 1616
biotechnology & applied microbiology (1585) 1585
medicine (1560) 1560
food science & technology (1537) 1537
research (1512) 1512
coatings (1503) 1503
fluorescence (1500) 1500
engineering, chemical (1451) 1451
morphology (1438) 1438
binding (1428) 1428
stability (1410) 1410
research article (1394) 1394
physics, applied (1363) 1363
amino acid sequence (1343) 1343
article (1332) 1332
environmental sciences (1313) 1313
water-repellency (1312) 1312
kontaktwinkel (1310) 1310
protein (1306) 1306
substrates (1262) 1262
chemical properties (1245) 1245
temperature (1194) 1194
separation (1178) 1178
biophysics (1166) 1166
kinetics (1165) 1165
fabrication (1154) 1154
thermodynamics (1144) 1144
enzymes (1137) 1137
chemistry, analytical (1136) 1136
models, molecular (1116) 1116
films (1115) 1115
surfaces (1099) 1099
hydrogen bonding (1097) 1097
lipids (1094) 1094
silicon dioxide (1090) 1090
hydrophilicity (1082) 1082
spectroscopy (1068) 1068
solvents (1063) 1063
biochemistry (1058) 1058
nanoscience & nanotechnology (1051) 1051
biology (1026) 1026
nanostructure (1021) 1021
surface (1021) 1021
polymerization (1011) 1011
scanning electron microscopy (1010) 1010
surface hydrophobicity (1004) 1004
toxicity (997) 997
chemistry, applied (995) 995
binding sites (994) 994
protein binding (994) 994
catalysis (992) 992
solubility (992) 992
polymer (981) 981
cancer (954) 954
nanotechnology (931) 931
surfactants (910) 910
biotechnology (906) 906
silica (903) 903
acids (897) 897
mutation (897) 897
studies (886) 886
life sciences (885) 885
micelles (881) 881
molecular sequence data (870) 870
protein conformation (870) 870
wasserabstossende eigenschaft (868) 868
drug delivery systems (859) 859
drugs (857) 857
computer simulation (856) 856
molecular dynamics (853) 853
more...
Language Language
Language Language
X
Sort by Item Count (A-Z)
Filter by Count
English (32788) 32788
Chinese (607) 607
Japanese (222) 222
German (189) 189
Korean (75) 75
French (65) 65
Spanish (52) 52
Polish (37) 37
Portuguese (35) 35
Russian (19) 19
Slovak (11) 11
Czech (10) 10
Persian (7) 7
Turkish (7) 7
Dutch (5) 5
Italian (3) 3
Serbian (3) 3
Latvian (2) 2
Romanian (2) 2
Bosnian (1) 1
Croatian (1) 1
Indonesian (1) 1
Lithuanian (1) 1
Slovenian (1) 1
more...
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


Materials Transactions, ISSN 1345-9678, 05/2017, Volume 58, Issue 5, p. 761
Electrolysis oxidation of chalcopyrite and molybdenite was investigated, via various electrochemical methods, with the aim of realizing selective flotation of... 
Hydrophobicity
Journal Article
Bioorganic and Medicinal Chemistry Letters, ISSN 0960-894X, 12/2013, Volume 23, Issue 23, pp. 6360 - 6362
Spiromorpholinone derivatives were synthesized from androsterone or cyclohexanone in 6 or 3 steps, respectively, and these scaffolds were used for the... 
Hydrophobicity
Journal Article
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 4/2013, Volume 110, Issue 16, pp. 6608 - 6608
Journal Article
Methods in Molecular Biology, ISSN 1064-3745, 01/2011, Volume 683, pp. 81 - 98
The ability to predict properties such as peptide binding and insertion into membranes is an important and time-saving asset in the design of new... 
Hydrophobicity
Journal Article
Science, ISSN 0036-8075, 08/2018, Volume 361, Issue 6405, p. eaar7101
Riback et al. (Reports, 13 October 2017, p. 238) used small-angle x-ray scattering (SAXS) experiments to infer a degree of compaction for unfolded proteins in... 
Proteins | Hydrophobicity
Journal Article
Science, ISSN 0036-8075, 08/2018, Volume 361, Issue 6405, p. eaau8230
Editors at Science requested our input on the above discussion (comment by Best et al. and response by Riback et al.) because both sets of authors use our data... 
Proteins | Hydrophobicity
Journal Article
Science, ISSN 0036-8075, 08/2018, Volume 361, Issue 6405, p. eaar7949
Best et al. claim that we provide no convincing basis to assert that a discrepancy remains between FRET and SAXS results on the dimensions of disordered... 
Proteins | Hydrophobicity
Journal Article
Medicinal Chemistry, ISSN 1573-4064, 07/2012, Volume 8, Issue 4, pp. 649 - 655
A quantitative structure-activity relationship (QSAR) study has been made on a novel series of pyrrole derivatives acting as lymphocyte-specific kinase (Lck)... 
Hydrophobicity
Journal Article
Protein Science, ISSN 0961-8368, 12/2002, Volume 11, Issue 12, pp. 2774 - 2791
Methods that predict membrane helices have become increasingly useful in the context of analyzing entire proteomes, as well as in everyday sequence analysis.... 
Av‐Cid, normalized average hydrophobicity scale (Cid 1992) | PSI‐BLAST, position‐specific iterated database search (Altschul et al. 1997) | TrEMBL, translation of the EMBL‐nucleotide database coding DNA to protein sequences (Bairoch and Apweiler 2000) | TopPred2, hydrophobicity‐based membrane helix prediction (von Heijne 1992; Cserzö et al. 1997) | Fauchere, hydrophobic parameter π from the partitioning of N‐acetyl‐amino‐acid amides (Fauchere and Pliska 1983) | BIG, nonidentical merger of SWISS‐PROT (Bairoch and Apweiler 2000) and TrEMBL (Bairoch and Apweiler 2000) and PDB (Berman et al. 2000) | PHDhtm, profile‐based neural network prediction of transmembrane helices (Rost 1996; Rost et al. 1996b) | Eisenberg, normalized consensus hydrophobicity scale (Eisenberg et al. 1984) | TM, transmembrane | MEMSAT, dynamic‐programming based prediction of transmembrane helices (Jones et al. 1994) | PDB, Protein Data Bank of experimentally determined 3D structures of proteins (Bernstein et al. 1977; Berman et al. 2000) | A‐Cid, normalized hydrophobicity scale for α‐proteins (Cid 1992) | GES, hydrophobicity property (Engelman et al. 1986; Prabhakaran 1990) | MaxHom, dynamic programming algorithm for conservation weight‐based multiple sequence alignment (Sander and Schneider 1991) | EM, Solvation free energy (Eisenberg and McLachlan 1986) | bioinformatics | SignalP, signal peptide prediction (Nielsen et al. 1997a) | Ben‐Tal, hydrophobicity scale representing the free energy of transferring an amino acid from water into the center of the hydrocarbon region of a lipid bilayer (Kessel and Ben‐Tal 2002) | TMHMM, transmembrane prediction using cyclic hidden Markov models (Sonnhammer et al. 1998; Krogh et al. 2001) | computational biology | Roseman, solvation‐corrected side‐chain hydropathy (Roseman 1988) | KD, Kyte–Doolittle hydropathy index (Kyte and Doolittle 1982) | PHDpsihtm, divergent profile (PSI‐BLAST)‐based neural network prediction 2002 | Radzicka, transfer free energy from 1‐octanol to water (Radzicka and Wolfenden 1988) | Sweet, optimal matching hydrophobicity (Sweet and Eisenberg 1983) | HMM, hidden Markov model | SWISS‐PROT, database of protein sequences (Bairoch and Apweiler 2000) | TMAP, alignment‐based prediction of transmembrane helices (Persson and Argos 1996) | Wolfenden, hydration potential (Wolfenden et al. 1981) | BLAST, fast sequence alignment method (Altschul and Gish 1996) | Levitt, hydrophobic parameter (Levitt 1976) | multiple alignments, predicting transmembrane helices | proteomes | Lawson, transfer free energy (Lawson et al. 1984) | WW, Wimley–White hydrophobicity scale‐based method (Wimley et al. 1996a,b; White and Wimley 1999; White 2001) | Nakashima, normalized composition of membrane proteins (Nakashima et al. 1990) | SOSUI, hydrophobicity‐ and amphiphilicity‐based transmembrane helix prediction (Hirokawa et al. 1998) | Bull‐Breese, Bull‐Breese hydrophobicity scale (Bull 1974) | SPLIT, transmembrane helix prediction (Juretic et al. 1998) | EVA, server automatically evaluating structure prediction methods (Eyrich et al. 2001a,b) | comparing genomes | TMpred, prediction of transmembrane helices (Hofmann and Stoffel 1993) | Heijne, transfer free energy to lipophilic phase (von Heijne and Blomberg 1979) | TMH, transmembrane helix | HMMTOP, hidden Markov model predicting transmembrane helices (Tusnady and Simon 1998) | Sequence analysis | protein structure prediction | DSSP, program assigning secondary structure (Kabsch and Sander 1983) | META‐PP, internet service allowing access to a variety of bioinformatics tools through one single interface (Eyrich and Rost 2000) | Hopp‐Woods, Hopp‐Woods hydrophilicity value (Hopp and Woods 1981) | Protein structure prediction | Multiple alignments, predicting transmembrane helices | Proteomes | Bioinformatics | Comparing genomes | Computational biology | PROTEIN SECONDARY STRUCTURE | predicting transmembrane helices | BIOCHEMISTRY & MOLECULAR BIOLOGY | ESCHERICHIA-COLI | multiple alignments | ACID SIDE-CHAINS | TOPOLOGY PREDICTION | INTEGRAL MEMBRANE-PROTEINS | BACTERIAL OUTER-MEMBRANE | SARCOPLASMIC-RETICULUM CA2+-ATPASE | STRUCTURAL CLASSIFICATION | sequence analysis | C-TERMINAL DOMAIN | MITOCHONDRIAL PROTEINS | Computational Biology - methods | Algorithms | Animals | Membrane Proteins - chemistry | Protein Structure, Secondary | Sensitivity and Specificity | Models, Molecular | Software | Protein Folding
Journal Article
Food and Nutrition Sciences, ISSN 2157-944X, 03/2013, Volume 4, Issue 3, pp. 299 - 299
The surface energy characteristics of uncoated (clean) and coated stainless steel with UHT milk at various contact time (5 min, 30 min, 1 hours, 3 hours, 6... 
Hydrophobicity
Journal Article
Advanced Materials, ISSN 0935-9648, 12/2017, Volume 29, Issue 45, p. n/a
Beihang University has achieved great progress in superwettability systems inspired by natural biological surfaces. The four intrinsic states of... 
Philosophy | Hydrophobicity
Journal Article
Chemical Reviews, ISSN 0009-2665, 08/2015, Volume 115, Issue 16, pp. 8230 - 8293
The results of a study on superhydrophobic surfaces are presented, including the difference between hydrophobicity and hydrophilicity. 
Hydrophilicity | Hydrophobicity
Journal Article
Chemical Communications : Chem Comm, ISSN 1359-7345, 01/2019, Volume 55, Issue 55, pp. 8001 - 8004
We report the first method to introduce differential functionalities in the interior pore walls and exterior surface of highly stable thermally hydrocarbonised... 
Silicon | Hydrophobicity | Porous silicon
Journal Article
Dalton Transactions, ISSN 1477-9226, 01/2019, Volume 48, Issue 24, pp. 8725 - 8730
A molecular tweezer incorporating two acridinium moieties linked by a 1,3-dipyridylbenzene spacer was synthesized in three steps. The formation of its... 
Dimers | Narcissism | Hydrophobicity
Journal Article
Separation and Purification Technology, ISSN 1383-5866, 03/2020, Volume 235, p. 116144
A high hydrophobicity of membrane plays a vital role in separating organics from dilute solution by pervaporation, which highly contributes to the increase of... 
PTFPMS | Membrane | Furfural | Hydrophobicity | Pervaporation
Journal Article
Journal of Alloys and Compounds, ISSN 0925-8388, 01/2020, Volume 814, p. 152339
Transition metal nitride (TMN) films with high hardness, high melting point and excellent chemical inertness have been widely used for protecting surfaces from... 
CeO2 | NbN | Hydrophobicity | Friction | Hardness
Journal Article
Journal of Materials Chemistry. A, Materials for Energy and Sustainability, ISSN 2050-7488, 01/2018, Volume 6, Issue 40, pp. 19353 - 19357
While anti-icing research has been the focus of much interest, the approaches developed so far suffer from inherent limitations, which restrict their... 
Deicing | Hydrophobicity | Coatings
Journal Article
Journal of the Japan Petroleum Institute, ISSN 1346-8804, 01/2017, Volume 60, Issue 3, p. 154
Immobilization of alkane-degrading bacteria by physical adsorption on polyurethane foam support was examined for application to the repeated degradation of... 
Immobilization | Hydrophobicity
Journal Article
No results were found for your search.

Cannot display more than 1000 results, please narrow the terms of your search.