\documentclass[a4paper,12pt,headsepline,tableheading,onehalfspacing]{scrbook}
\usepackage{scrlayer-scrpage}
\usepackage[left=38mm,right=28mm,top=30mm,bottom=28mm]{geometry}
\automark[chapter]{chapter}
%Einheiten
\usepackage{siunitx}
\sisetup{list-final-separator={, and },per-mode=fraction,list-units=single,range-units=single}
\DeclareSIUnit{\wt}{wt\%}
\DeclareSIUnit{\stp}{(STP)}
\DeclareSIUnit{\one}{1}
\DeclareSIUnit{\OTR}{\cubic\centi\m\stp\per\square\m\per\day\per\bar}
\DeclareSIUnit{\OP}{\cubic\centi\m\stp\micro\m\per\square\m\per\day\per\bar}
\DeclareSIUnit{\WVTR}{\g\per\square\m\per\day}
\DeclareSIUnit{\WVP}{\g\milli\m\per\square\m\per\day}
\DeclareSIUnit{\WVPP}{\g\micro\m\per\square\m\per\day}
\DeclareSIUnit{\rh}{\% RH}
%Tabellen
\usepackage{tabularx}
\newcolumntype{C}[1]{>{\centering\arraybackslash}m{#1}}
\usepackage{multirow}
\usepackage{rotating}
\usepackage{makecell}
\begin{document}
\begin{sidewaystable}
\caption{Beispieltext}
\begin{scriptsize}
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\begin{tabularx}{\textwidth}{p{1.5cm} p{3.6cm} p{3.5cm} p{1.8cm} p{1.45cm} p{3.2cm} X}
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Author & Lacquer & MMT exfoliation & coating technique & substrate (thickness) & oxygen permeability (\unit{\OP}) & explanation \\
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Grunlan et al. & PVA and MMT with 4:1 mixing ratio; total solid content of \qty{1.5}{\wt}; modified with \qty{1}{\wt} iactonic acid & Stirring in hot polymer solution for \qtyrange{4}{8}{\hour} followed by \qty{24}{\hour} stirring at RT and \qty{24}{\hour} rolling & k-bar coating & PET (\qty{50.8}{\micro\m}) & \parbox[t]{3.2cm}{0.03 (\qty{23}{\degreeCelsius}/\qty{55}{\rh}) \\ BIF of 21 compared to unfilled PVA} & Addition of silicate particles disrupts polymer crystallinity and occupies polymers' hydroxy groups, but the benefit of the tortuous path effect outweighs these adverse factors \\
&\\
Nyflött et al. & PVA and kaolin (modified with NaPAA) with 8:5 mixing ratio; total solid content of \qty{13}{\wt}; adjusted to pH 7.3 with NaOH & Stirring in water (undefined duration), then mixing with PVA solution (undefined duration) & k-bar coating & PET (\qty{23}{\micro\m}) & \parbox[t]{3.2cm}{0.7 (\qty{23}{\degreeCelsius}/\qty{50}{\rh}) \\ BIF of 1.7 compared to unfilled PVA} & Tortuous path effect introduced by polymer crystallinity and kaolin platelets traps oxygen molecules; elongated lag time for thicker coating layers.\\
&\\
Ding et al. & PVA and MMT with 1:1 mixing ratio; total solid content of \qty{1.5}{\wt}; cross-linked with glutaraldehyde & Stirring in water (undefined duration) followed by \qty{30}{\min} ultrasonication, then mixing with polymer solution and \qty{30}{\min} ultrasonication & 4x dip coating & PET (\qty{24}{\micro\m}) & \parbox[t]{3.2cm}{0.07 (\qty{23}{\degreeCelsius}/\qty{0}{\rh}) \\ BIF of 127 compared to unfilled PVA} & High level of orientation and very dense packaging of MMT are the reason for outstanding barrier performance.\\
&\\
Tsurko et al. & PVA and synthesized silicate (fluorohectorite) with 1:1 mixing ratio; total solid content of \qty{0.25}{\wt} & osmotic swelling in deionized water (undefined duration), then shaking with PVA solution over night & \numrange{100}{1000}x spray coating & PET (\qty{36}{\micro\m}) & \parbox[t]{3.2cm}{\num{4.05E-4} (\qty{23}{\degreeCelsius}/\qty{50}{\rh}) \\ BIF of 489 compared to unfilled PVA} & Incorporation of large aspect ratio particles reduces oxygen permeation due to tortuous path effect.\\
&\\
Song et al.& PVA and MMT with 1:1 mixing ratio; total solid content of \qty{2}{\wt} & Dispersion in dionized water and rolling over night, then mixing with PVA solution for \qty{5}{\min} & solution casting & PET (\qty{179}{\micro\m}) & \parbox[t]{3.2cm}{0.002 (\qty{23}{\degreeCelsius}/\qty{0}{\rh}) \\ BIF of 149 compared to unfilled PVA} & Oxygen molecules follow a tortuous path forced by silicate platelets; better platelet alignment increases tortuosity.\\
&\\
Ben Dhieb et al. & PVA and MMT separately coated with \qty{0.5}{\wt} solid content & dispersion in DI water (undefined duration) & 30x blade & PET (\qty{16}{\micro\m}) & \parbox[t]{3.2cm}{0.20 (\qty{23}{\degreeCelsius}/\qty{0}{\rh}) \\ BIF of 24 compared to unfilled PVA} & Silicate loading enhances tortuosity in the film; High density of hydroxy groups in PVA and MMT leads to strong hydrogen bonding and therefore to a reduction of free volume in the coating which reduces permeability. \\
\end{tabularx}
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\begin{scriptsize}
\renewcommand{\arraystretch}{1.5}
\begin{tabularx}{\textwidth}{p{1.5cm} p{3.6cm} p{3.5cm} p{1.8cm} p{1.5cm} p{3.2cm} X}
Author & Lacquer & MMT exfoliation & coating technique & substrate (thickness) & oxygen permeability (\unit{\OP}) & explanation \\
\hline
Dabbaghia-namiri et al. & PVA and MMT separately coated with \qtylist{0.3;0.45}{\wt} solid content, respectively & Dispersion in deionized water (undefined duration), then \qty{30}{\min} ultrasonication & 12x inkjet printing & PET (\qty{110}{\micro\m}) & \parbox[t]{3.2cm}{0.90 (\qty{23}{\degreeCelsius}/\qty{0}{\rh}) \\ BIF of 2760 compared to PVA layer with similar thickness} & Highly ordered and oriented MMT leading to elongation of tortuous path; combined with constrained polymer effect induced by interaction of silicate and polymer. \\
&\\
Meng et al. & PVA and MMT with 1:2 mixing ratio; total solid content of \qty{1.5}{\wt} & Stirring in distilled water for \qty{12}{\hour}, then \qty{2}{\hour} cooled ultrasonication, after mixing with polymer again \qty{1}{\hour} ultrasonication & 9x dip coating & PET (\qty{50}{\micro\m}) & \parbox[t]{3.2cm}{6.00 (\qty{23}{\degreeCelsius}/\qty{0}{\rh}) \\ no reference for unfilled PVA given} & Reducing the space among deposited silicate layers improves oxygen barrier due to compact shielding; lower amount of little cracks.\\
&\\
LaChance et al. & PVA and MMT with 1:1 mixing ratio; total solid content of \qty{1.5}{\wt}; cross-linked with glutaraldehyde & Stirring in deionzed water (undefined duration), then stirring with PVA solution (undefined duration), last ultrasonication of mixture (undefined duration) & blade coating & PET (\qty{25.4}{\micro\m}) & \parbox[t]{3.2cm}{0.03 (\qty{23}{\degreeCelsius}/\qty{0}{\rh}) \\ no reference for unfilled PVA given} & High orientation level and dense packing orientation level, dense packing of MMT nanosheets creates tortuous path for oxygen diffusion.\\
&\\
LaChance et al. & PVA and MMT with 1:1 mixing ratio; total solid content of \qty{1.5}{\wt} & Stirring in deionzed water (undefined duration), then stirring with PVA solution (undefined duration), last ultrasonication of mixture (undefined duration) & spin coating & PET (\qty{25.4}{\micro\m}) & \parbox[t]{3.2cm}{0.43 (\qty{23}{\degreeCelsius}/\qty{0}{\rh}) \\ no reference for unfilled PVA given} & High orientation level and dense packing orientation level, dense packing of MMT nanosheets creates tortuous path for oxygen diffusion.\\
&\\
Yue et al. & PVA and MMT with 1:1 mixing ratio; total solid content of \qty{1.5}{\wt}; cross-linked with glutaraldehyde and HCL & \qty{1}{\hour} stirring in water, then \qty{1}{\hour} ultrasonication, after mixing with PVA solution stirring for \qty{1}{\hour} followed by short ultrasonication, supernatant after \qty{3}{\day} used for coating & 4x dip coating & PPC-P (\qty{122}{\micro\m}) & \parbox[t]{3.2cm}{0.26 (\qty{23}{\degreeCelsius}/\qty{0}{\rh}) \\ BIF of 60 compared to unfilled PVA} & High concentration of well-oriented MMT nanosheets with high aspect ratio leads to tortuous pathway for permeating oxygen molecules.\\
&\\
Zou et al. & PVA and MMT with 1:1 mixing ratio; total solid content of \qty{1.5}{\wt}; cross-linked with glutaraldehyde & Stirring in deionized water over night, then mixed with PVA solution, followed by stirring for \qty{4}{\hour}, then \qty{30}{\min} ultrasonication of mixture & 2x dip coating & PET (?) & \parbox[t]{3.2cm}{0.15 (\qty{23}{\degreeCelsius}/\qty{0}{\rh}) \\ no reference for unfilled PVA given} & Large amount of highly-oriented MMT in PVA contributed to thicker and denser composite coating layers. \\
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\end{document}Ich habe das Gefühl, dass ich mich bei der oben kopierten Tabelle stark verkünstelt habe.
Blocksatz, Zeilenumbruch, Spaltenbreite, etc.
Könnt ihr mir hier eine elegantere Variante empfehlen?
Es soll eine zweiseite Tabelle im Querformat bleiben, damit alles einigermaßen übersichtlich ist.
konkret möchte ich in der 6. Spalte den Blocksatz zu Linksbündigkeit, aber weiterhin mit Zeilenumbrüchen darstellen. Ich habe da aktuell diese \parbox Befehle drin, aber ich hab das Gefühl, dass das falsch ist.
Danke für eure Hilfe
LG, Stefan