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200 1 $aComputational methods of linear algebra$fby V. N. Faddeeva$gauthorized translation from the Russian by Curtis D. Benster
210   $aNew York$cDover$dc1959
215   $aX, 252 p.$d21 cm
225 2 $aDover books on advanced mathematics
410  0$12001$aDover books on advanced mathematics
676   $a512.502$v20$9Algebra lineare, multilineare, multidimensionale
700  1$aFaddeeva,$bVera Nikolaevna$0104569
702  1$aBenster,$bCurtis D
801  0$aIT$bUNIPARTHENOPE$c20081110$gRICA$2UNIMARC
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996   $aComputational methods of linear algebra$9343329
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035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/59182
035   $a(oapen)doab59182
035   $a(EXLCZ)994100000011302269
100   $a20202102d2020      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aSelf-Assembly of Polymers
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2020
215   $a1 online resource (186 p.)
311 08$a3-03928-506-8 
330   $aNowadays, polymer self-assembly has become extremely attractive for both biological (drug delivery, tissue engineering, scaffolds) and non-biological (packaging, semiconductors) applications. In nature, a number of key biological processes are driven by polymer self-assembly, for instance protein folding. Impressive morphologies can be assembled from polymers thanks to a diverse range of interactions involved, e.g., electrostatics, hydrophobic, hots-guest interactions, etc. Both 2D and 3D tailor-made assemblies can be designed through modern powerful techniques and approaches such as the layer-by-layer and the Langmuir-Blodgett deposition, hard and soft templating. This Special Issue highlights contributions (research papers, short communications, review articles) that focus on recent developments in polymer self-assembly for both fundamental understanding the assembly phenomenon and real applications.
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610   $aadsorption
610   $aair-liquid interface
610   $aaprotinin
610   $abiomedicine
610   $ablock polymers
610   $aCaCO3
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610   $acalcium carbonate
610   $acell culture
610   $aco-synthesis
610   $acollagen
610   $acontrolled release
610   $acrosslinking
610   $adrug delivery
610   $aencapsulation
610   $aevaporative self-assembly
610   $afield-effect transistor
610   $aflexible geometric confinement
610   $afluorescence
610   $afood industry
610   $alayer-by-layer
610   $aMarangoni convection
610   $amarine exopolysaccharide
610   $amesoporous
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610   $amucin
610   $an/a
610   $ananocrystalline
610   $ananolithography
610   $ananoparticle
610   $aphoto-sensitive
610   $apolyhedral oligomeric silsesquioxane
610   $apolymer
610   $apolymer scaffold
610   $apolymerisation
610   $aporous hydrogel
610   $aprotamine
610   $aprotein adsorption resistance
610   $aself-assembly
610   $asolvent vapor annealing
610   $astimuli-responsive polymer
610   $astimuli-responsive polymers
610   $asurface modification
610   $asynthetic polypeptide
610   $atension gradient
610   $athin films
610   $aTi6Al4V
610   $atransglutaminases
615  7$aHistory of engineering and technology
700   $aVikulina$b Anna$4auth$01327944
702   $aVolodkin$b Dmitry$4auth
906   $aBOOK
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996   $aSelf-Assembly of Polymers$93038320
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