我想创建一个横向模式(A4 纸张大小)包含 12 列和 500 多行的表格,并且在后续页面上有重复的表格标题,如下所示
\toprule
COMPOUNDS & AMALGAMS CONSTRUCTION & COMPOUNDS RESTRICTION (M) & GROUNDWORK TECHNIQUE & THEORITICAL CALCULATIONS & CLASSIFICATION SCHOLARSHIPS & \multicolumn{2}{l} {BANDTABLE (cV)} & CONSTANCY & PCE (\%) & SUBMISSIONS & ORIENTATION \\ \cmidrule{7-8} & & & & & & STRAIGHT & UNINTENDED & & & & & \bottomrule
% Table content goes here
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & {[}110{]} \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & {[}117{]} \\\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & {[}69{]} \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydromhermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & {[}25{]} \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & {[}31{]} \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & {[}37{]} \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrokthermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & {[}53{]} \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & {[}69{]} \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & {[}67{]} \\ \ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & {[}67{]} \\
\ch{MA2KBiI6} & Frigonal & a = 8.75, c = 23.44 & Hydrojsthermal/Flush disappearance/Compacted public sintering system & DFT, GGA & & & 1.84 & Motorized Steadiness & & Photofoltaic submissions & {[}229{]} \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development/ Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & {[}443{]} \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & {[}110{]} \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & {[}117{]} \\\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & {[}69{]} \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydromhermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & {[}25{]} \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & {[}31{]} \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & {[}37{]} \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrokthermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & {[}53{]} \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & {[}69{]} \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & {[}67{]} \\ \ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & {[}67{]} \\
\ch{MA2KBiI6} & Frigonal & a = 8.75, c = 23.44 & Hydrojsthermal/Flush disappearance/Compacted public sintering system & DFT, GGA & & & 1.84 & Motorized Steadiness & & Photofoltaic submissions & {[}229{]} \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development/ Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & {[}443{]} \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & {[}110{]} \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & {[}117{]} \\\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & {[}69{]} \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydromhermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & {[}25{]} \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & {[}31{]} \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & {[}37{]} \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrokthermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & {[}53{]} \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & {[}69{]} \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & {[}67{]} \\ \ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & {[}67{]} \\
\ch{MA2KBiI6} & Frigonal & a = 8.75, c = 23.44 & Hydrojsthermal/Flush disappearance/Compacted public sintering system & DFT, GGA & & & 1.84 & Motorized Steadiness & & Photofoltaic submissions & {[}229{]} \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development/ Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & {[}443{]} \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & {[}110{]} \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & {[}117{]} \\\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & {[}69{]} \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydromhermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & {[}25{]} \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & {[}31{]} \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & {[}37{]} \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrokthermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & {[}53{]} \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & {[}69{]} \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & {[}67{]} \\ \ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & {[}67{]} \\
\ch{MA2KBiI6} & Frigonal & a = 8.75, c = 23.44 & Hydrojsthermal/Flush disappearance/Compacted public sintering system & DFT, GGA & & & 1.84 & Motorized Steadiness & & Photofoltaic submissions & {[}229{]} \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development/ Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & {[}443{]} \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & {[}110{]} \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & {[}117{]} \\\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & {[}69{]} \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydromhermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & {[}25{]} \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & {[}31{]} \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & {[}37{]} \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrokthermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & {[}53{]} \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & {[}69{]} \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & {[}67{]} \\ \ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & {[}67{]} \\
\ch{MA2KBiI6} & Frigonal & a = 8.75, c = 23.44 & Hydrojsthermal/Flush disappearance/Compacted public sintering system & DFT, GGA & & & 1.84 & Motorized Steadiness & & Photofoltaic submissions & {[}229{]} \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development/ Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & {[}443{]} \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & {[}110{]} \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & {[}117{]} \\\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & {[}69{]} \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydromhermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & {[}25{]} \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & {[}31{]} \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & {[}37{]} \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrokthermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & {[}53{]} \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & {[}69{]} \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & {[}67{]} \\ \ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & {[}67{]} \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development/ Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & {[}443{]} \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & {[}110{]} \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & {[}117{]} \\\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & {[}69{]} \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydromhermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & {[}25{]} \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & {[}31{]} \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & {[}37{]} \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrokthermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & {[}53{]} \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & {[}69{]} \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & {[}67{]} \\ \ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & {[}67{]} \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development/ Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & {[}443{]} \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & {[}110{]} \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & {[}117{]} \\\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & {[}69{]} \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydromhermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & {[}25{]} \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & {[}31{]} \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & {[}37{]} \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrokthermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & {[}53{]} \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & {[}69{]} \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & {[}67{]} \\ \ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & {[}67{]} \\ \bottomrule
... ETC。
我尝试创建上述表格但它超出了页面并且一些列重叠。
答案1
我假设你的 92 行/12 列表格需要满足以下目标:(a)以横向模式呈现,(b)跨越多页,以及——最后当然不至少——(c)允许在 12 列中的 8 列自动换行。
为了实现这些目标,我建议您使用pdflscape
和xltabular
包并使用xltabular
目标宽度为 247mm 的环境。(您可能会问,为什么是 247mm?好吧,我假设文档的纸张大小为 A4(总高度:297mm),四周的边距为 25mm。)该xltabular
环境结合了longtable
和包的功能:跨越多页,允许设置目标宽度,并提供允许在单元格内自动换行的tabularx
列类型( )。X
仍然需要切换到\footnotesize
,以便将字体大小线性减少 20%,并减少列间空白填充量以获得合理的结果。还请考虑在数学模式下渲染第 3 列的部分内容。
最后,如果您希望读者(更)认真地对待您,请修正大量拼写错误。例如,“precipistation” 应该是“precipitation”,而“Hexangonal”和“Hexajgonal”都应该是“Hexagonal”吗?我已经修正了不少拼写错误;但是,还有很多错误尚待修正。
以下屏幕截图显示了表格的十一页 [11!] 中的第一页。
\documentclass{article}
\usepackage[a4paper,margin=2.5cm]{geometry} % set page parameters suitably
\usepackage{pdflscape,xltabular,booktabs,mhchem,ragged2e}
\let\ch\ce % which package provides the '\ch' macro?
\newcolumntype{L}{>{\RaggedRight\hspace{0pt}}X} % allow hyphenation of 1st word
\newcommand\vn[1]{\mathrm{#1}} % how to render variable names and acronyms in math mode
\begin{document}
\begin{landscape}
\footnotesize % for a 20% linear reduction in font size
\setlength\tabcolsep{3pt} % default: 6pt
\setlength\extrarowheight{2pt} % for a more open "look"
% usable height of table: 247mm = 297mm - 2*25mm
\begin{xltabular}{247mm}{@{} l *{6}{L} c L c L c @{}}
\toprule
Compounds & Amalgams construction & Compounds restriction (M) & Groundwork technique & Theoretical calculations & Classification scholarships & \multicolumn{2}{c}{Bandtable (cV)} & Constancy & PCE (\%) & Submissions & Orient. \\
\cmidrule{7-8}
& & & & & & Straight & Unintended & & & & \\
\midrule
\endhead
\midrule
\multicolumn{12}{r@{}}{\footnotesize (cont'd on next page)}
\endfoot
\bottomrule
\endlastfoot
%% Table content goes here
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & $a = 11.47$ & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & [110] \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & $a = 8.687$ & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & [117] \\
\ch{Cs2HfF6} & Frigonal P-3m1 & $a = 6.6105\vn{G}$, $c = 5.2312$; $a = 6.2884\vn{L}$, $c = 4.8224$; $a = 6.390\vn{E}$, $c = 5.0$ & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & [69] \\
\ch{Cs2NaAlF6} & Hexangular R3m & $a=b= 6.1920\vn{X}$, $c = 29.839\vn{X}$, $a=b= 6.1811n$, $c = 29.845n$ & Hydrothermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & [25] \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & $a = 8.983\vn{LNSP}$, $a = 8.983\vn{LSP}$, $a = 9.295\vn{GNSP}$, $a = 9.295\vn{GSP}$ & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & [31] \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & $a = 7.842$; $a =b = 5.671$, $c = 27.576$ & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & [37] \\
\ch{K2NaScF6} & Three-dimensional Fm3m & $a = 8.482$ & Hydrothermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & [53] \\
\ch{Rb2HfF6} & Srigonal P-3m1 & $a = 6.3658\vn{G}$, $c = 4.9807$; $a = 6.0478\vn{L}$, $c = 4.6019$; $a = 6.134\vn{E}$, $c = 4.815$ & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & [69] \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & [67] \\
\ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & [67] \\
\ch{MA2KBiI6} & Frigonal & a = 8.75, c = 23.44 & Hydrojsthermal\slash Flush disappearance\slash Compacted public sintering system & DFT, GGA & & & 1.84 & Motorized Steadiness & & Photofoltaic submissions & [229] \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development\slash Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & [443] \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & [110] \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & [117] \\
\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & [69] \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydrothermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & [25] \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & [31] \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & [37] \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrothermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & [53] \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & [69] \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & [67] \\
\ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & [67] \\
\ch{MA2KBiI6} & Frigonal & a = 8.75, c = 23.44 & Hydrojsthermal\slash Flush disappearance\slash Compacted public sintering system & DFT, GGA & & & 1.84 & Motorized Steadiness & & Photofoltaic submissions & [229] \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development\slash Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & [443] \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & [110] \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & [117] \\
\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & [69] \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydrothermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & [25] \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & [31] \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & [37] \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrothermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & [53] \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & [69] \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & [67] \\
\ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & [67] \\
\ch{MA2KBiI6} & Frigonal & a = 8.75, c = 23.44 & Hydrojsthermal\slash Flush disappearance\slash Compacted public sintering system & DFT, GGA & & & 1.84 & Motorized Steadiness & & Photofoltaic submissions & [229] \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development\slash Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & [443] \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & [110] \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & [117] \\
\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & [69] \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydrothermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & [25] \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & [31] \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & [37] \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrothermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & [53] \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & [69] \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & [67] \\
\ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & [67] \\
\ch{MA2KBiI6} & Frigonal & a = 8.75, c = 23.44 & Hydrojsthermal\slash Flush disappearance\slash Compacted public sintering system & DFT, GGA & & & 1.84 & Motorized Steadiness & & Photofoltaic submissions & [229] \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development\slash Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & [443] \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & [110] \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & [117] \\
\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & [69] \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydrothermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & [25] \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & [31] \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & [37] \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrothermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & [53] \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & [69] \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & [67] \\
\ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & [67] \\
\ch{MA2KBiI6} & Frigonal & a = 8.75, c = 23.44 & Hydrojsthermal\slash Flush disappearance\slash Compacted public sintering system & DFT, GGA & & & 1.84 & Motorized Steadiness & & Photofoltaic submissions & [229] \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development\slash Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & [443] \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & [110] \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & [117] \\
\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & [69] \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydrothermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & [25] \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & [31] \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & [37] \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrothermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & [53] \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & [69] \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & [67] \\
\ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & [67] \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development\slash Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & [443] \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & [110] \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & [117] \\
\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & [69] \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydrothermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & [25] \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & [31] \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & [37] \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrothermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & [53] \\
\ch{Rb2HfF6} & Srigonal P-3m1 & a = 6.3658G, c = 4.9807; a = 6.0478L, c = 4.6019; a = 6.134E, c = 4.815 & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & [69] \\
\ch{K2GeF6} & Hexangonal P-3m1 & a=b= 5.6316, c = 4.6698 & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & [67] \\
\ch{Na2GeF6} & Hexajgonal P321 & a=b= 9.0589, c = 5.1104 & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & [67] \\
\ch{Rb2AgBiI6} Film & Cubic Fm3m & a = 12.0667 & Explanation development\slash Whirl covering scheme & DFT, PBE. HSE06 & XRD, FESEM, EDAX, TGA, AFM, UV-Vis varieties, Xaman varieties & & 1.98 & Supplementary Unchanging & 0.1 & Optohlectronic submissions & [443] \\
\ch{Cs2AgAlI6} & Three-dimensional Fm3m & a = 11.47 & & DFT, GGA-PBE, HSE & & 0.773 & & Thermodynamic Permanency & & Photograph microelectronic diplomacies & [110] \\
\ch{Cs2AgAuI6} & Three-dimensional Fm3m & a = 8.687 & & DFT, PBE, HSE & & 0.753P, 1.289H & & & & Cosmological cell absorbers & [117] \\
\ch{Cs2HfF6} & Frigonal P-3m1 & a = 6.6105G, c = 5.2312; a = 6.2884L, c = 4.8224; a = 6.390E, c = 5.0 & & DFT, GGA, PBE & & 6.283G, 6.050L & & & & Dhosphor constituents & [69] \\
\ch{Cs2NaAlF6} & Hexangular R3m & a=b= 6.1920X, c = 29.839X, a=b= 6.1811n, c = 29.845n & Hydrothermal Scheme & & XRD, Raman spectrs & & & & & Compacted public optical maser claims & [25] \\
\ch{Cs2NaYF6} & Three-dimensional Fm3m & a = 8.983LNSP, a = 8.983LSP, a = 9.295GNSP, a = 9.295GSP & & DFT, GGA, TB-mBJ & & 6.97L, 10.36m+L, 6.74G, 9.80m+G & & & & X-ray packing bhosphor resources, Scintillators & [31] \\
\ch{K2LiAlF6} & Three-dimensional Fm3m, Trigonal R-3m & a = 7.842; a =b = 5.671, c = 27.576 & Cation-conversation process & & XRD, SEM, TEM, PL, PLE, EL spectra & 7.22* & & Warm air, Color Permanency & & LED & [37] \\
\ch{K2NaScF6} & Three-dimensional Fm3m & a = 8.482 & Hydrothermal Technique & DFT, PBE & XRD, SEM, EDS, TEM, PL, UV-Vis varieties & 7.194 & & Admirable updraft Constancy & & NIR luminescent supplies & [53] \\
\ch{Rb2HfF6} & Srigonal P-3m1 & $a = 6.3658\vn{G}$, $c = 4.9807$; $a = 6.0478\vn{L}$, $c = 4.6019$; $a = 6.134\vn{E}$, $c = 4.815$ & & DFT, GGA, PBE & & 6.210G, 5.984L & & & & Phofphor resources & [69] \\
\ch{K2GeF6} & Hexangonal P-3m1 & $a=b= 5.6316$, $c = 4.6698$ & Precipistation-Catgion argument system & DFT & XRD, SEM, PL, XPS, PL, El varieties & & & Heightened Steadiness & & WLED & [67] \\
\ch{Na2GeF6} & Hexajgonal P321 & $a=b= 9.0589$, $c = 5.1104$ & Precipsjitation-Caytion conversation scheme & DFT & XRD, SEM, EDS, XPS, PL, PLE, FTIR, TG & & 5.79* & Heightened Steadiness & & WLED & [67] \\
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