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Table representation of search results timeline featuring number of search results per year.

Year Number of Results
1949 1
1954 1
1956 2
1958 6
1959 3
1962 1
1963 6
1964 7
1965 8
1966 57
1967 132
1968 225
1969 212
1970 254
1971 296
1972 453
1973 486
1974 512
1975 540
1976 624
1977 690
1978 769
1979 840
1980 942
1981 954
1982 1044
1983 976
1984 1122
1985 1203
1986 1292
1987 1262
1988 1325
1989 1485
1990 1548
1991 1572
1992 1606
1993 1661
1994 1853
1995 1894
1996 1885
1997 1878
1998 1968
1999 2004
2000 2171
2001 2274
2002 2513
2003 2706
2004 3161
2005 3384
2006 3523
2007 3570
2008 3792
2009 3977
2010 4333
2011 4593
2012 4447
2013 4474
2014 4456
2015 4202
2016 4130
2017 3902
2018 3964
2019 2235
2020 80
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99,800 results
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Page 1
Novel methods for liposome preparation
Patil YP and Jadhav S. Chem Phys Lipids 2014 - Review. PMID 24220497
Imaging Artificial Membranes Using High-Speed Atomic Force Microscopy.
Nasrallah H, et al. Methods Mol Biol 2019. PMID 30374861
Supported lipid bilayers represent a very attractive way to mimic biological membranes, especially to investigate molecular mechanisms associated with the lateral segregation of membrane components. ...In this chapter we describe in detail the protocols to fabricate supported artificial bilayers as well as the main guidelines for HS-AFM imaging of such samples....
Supported lipid bilayers represent a very attractive way to mimic biological membranes, especially to investigate molecular mechanism …
Sizes of lipid domains: What do we know from artificial lipid membranes? What are the possible shared features with membrane rafts in cells?
Rosetti CM, et al. Biochim Biophys Acta Biomembr 2017 - Review. PMID 28143759 Free article.
In model lipid membranes with phase coexistence, domain sizes distribute in a very wide range, from the nanometer (reported in vesicles and supported films) to the micrometer (observed in many model membranes). ...Here, an overview is given of the factors that affect nucleation or spinodal decomposition and domain growth, and their influence on the distribution of domain sizes in different model membranes is discussed. ...
In model lipid membranes with phase coexistence, domain sizes distribute in a very wide range, from the nanometer (reported in vesicl …
Sorption of Cationic Surfactants to Artificial Cell Membranes: Comparing Phospholipid Bilayers with Monolayer Coatings and Molecular Simulations.
Timmer N and Droge ST. Environ Sci Technol 2017. PMID 28187261 Free PMC article.
This study reports the distribution coefficient between phospholipid bilayer membranes and phosphate buffered saline (PBS) medium (D(MW,PBS)) for 19 cationic surfactants. ...These SSLM results closely overlapped with measurements on a chromatographic tool based on immobilized artificial membranes (IAM-HPLC) and with quantum-chemistry based calculations with COSMOmic. ...
This study reports the distribution coefficient between phospholipid bilayer membranes and phosphate buffered saline (PBS) medium (D( …
Construction of membrane-bound artificial cells using microfluidics: a new frontier in bottom-up synthetic biology.
Elani Y. Biochem Soc Trans 2016 - Review. PMID 27284034 Free PMC article.
Cell mimics that are encapsulated by lipid membranes are a particularly powerful class of artificial cells due to their biocompatibility and the ability to reconstitute biological machinery within them. One of the key obstacles in the field centres on the following: how can membrane-based artificial cells be generated in a controlled way and in high-throughput? ...
Cell mimics that are encapsulated by lipid membranes are a particularly powerful class of artificial cells due to their biocom …
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