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Β«ΠΠ°Π»ΠΎΠ±ΡΠ΄ΠΆΠ΅ΡΠ½ΠΈΠΉΒ» ΠΌΠ°ΡΠΊΠ΅ΡΠΈΠ½Π³
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ΡΡΠΎΠ³ΠΎΠ΄Π½ΡΡΠ½ΡΠΎΡ Π΅ΠΊΠΎΠ½ΠΎΠΌΡΡΠ½ΠΎΡ ΠΊΡΠΈΠ·ΠΈ, ΡΠΊΠ° Π·Π°ΡΠ΅ΠΏΠΈΠ»Π° Π²ΡΡ Π²ΡΡΡΠΈΠ·Π½ΡΠ½Ρ ΠΏΡΠ΄ΠΏΡΠΈΡΠΌΡΡΠ²Π°, ΡΠ° ΠΏΠΎΡΡΡΠΉΠ½ΠΎΠ³ΠΎ Π·Π½ΠΈΠΆΠ΅Π½Π½Ρ ΡΠΊΡΠ°ΡΠ½ΡΡΠΊΠΎΡ Π½Π°ΡΡΠΎΠ½Π°Π»ΡΠ½ΠΎΡ Π²Π°Π»ΡΡΠΈ Π°ΠΊΡΡΠ°Π»ΡΠ½ΠΈΠΌΠΈ ΡΡΠ°ΡΡΡ ΠΏΠΈΡΠ°Π½Π½Ρ ΠΏΠΎΡΡΠΊΡ ΡΠΏΠΎΡΠΎΠ±ΡΠ² Π΅ΠΊΠΎΠ½ΠΎΠΌΡΡ ΠΊΠΎΡΡΡΠ². ΠΠΈΡΡΡΠ΅Π½Π½ΡΠΌ ΡΠ°ΠΊΠΈΡ
ΠΏΡΠΎΠ±Π»Π΅ΠΌ ΠΌΠΎΠΆΠ΅ ΡΡΠ°ΡΠΈ Β«ΠΌΠ°Π»ΠΎ Π±ΡΠ΄ΠΆΠ΅ΡΠ½ΠΈΠΉΒ» ΠΌΠ°ΡΠΊΠ΅ΡΠΈΠ½Π³, ΡΠΊΠΈΠΉ Π΄ΠΎΠΏΠΎΠΌΠΎΠΆΠ΅ ΡΠΎΠ·Π²ΠΈΠ²Π°ΡΠΈΡΡ ΠΏΡΠ΄ΠΏΡΠΈΡΠΌΡΡΠ²Ρ Π· Π²ΠΈΠΊΠΎΡΠΈΡΡΠ°Π½Π½ΡΠΌ ΠΌΡΠ½ΡΠΌΠ°Π»ΡΠ½ΠΎΡ ΠΊΡΠ»ΡΠΊΠΎΡΡΡ ΡΠ΅ΡΡΡΡΡΠ².
Β«ΠΠ°Π»ΠΎΠ±ΡΠ΄ΠΆΠ΅ΡΠ½ΠΈΠΉΒ» ΠΌΠ°ΡΠΊΠ΅ΡΠΈΠ½Π³ β ΡΠ΅ ΠΌΠ°ΡΠΊΠ΅ΡΠΈΠ½Π³ΠΎΠ²Ρ ΡΠ½ΡΡΡΡΠΌΠ΅Π½ΡΠΈ Π·Π°Π»ΡΡΠ΅Π½Π½Ρ ΠΉ ΡΡΡΠΈΠΌΠ°Π½Π½Ρ ΠΊΠ»ΡΡΠ½ΡΡΠ², ΡΠΊΡ ΠΏΡΠΈΠΏΡΡΠΊΠ°ΡΡΡ ΠΌΡΠ½ΡΠΌΠ°Π»ΡΠ½Ρ Π²ΠΈΡΡΠ°ΡΠΈ, Π° ΡΠ½ΠΎΠ΄Ρ ΠΌΠΎΠΆΠ½Π° Π²Π·Π°Π³Π°Π»Ρ ΠΎΠ±ΡΠΉΡΠΈΡΡ Π±Π΅Π· Π±ΡΠ΄ΠΆΠ΅ΡΡ
Molecular Doping of Porous Organic Cages
No full textPorous organic cages can act as hosts for the three-dimensional alignment of guests such as halogens and organometallics. Porous single crystals are doped by vapor sublimation to produce diamondoid arrangements of guests such as I5β and OsO4, leading to marked conductivity enhancement in the case of I5β
Molecular Doping of Porous Organic Cages
No full textPorous organic cages can act as hosts for the three-dimensional alignment of guests such as halogens and organometallics. Porous single crystals are doped by vapor sublimation to produce diamondoid arrangements of guests such as I5β and OsO4, leading to marked conductivity enhancement in the case of I5β
Molecular Doping of Porous Organic Cages
No full textPorous organic cages can act as hosts for the three-dimensional alignment of guests such as halogens and organometallics. Porous single crystals are doped by vapor sublimation to produce diamondoid arrangements of guests such as I5β and OsO4, leading to marked conductivity enhancement in the case of I5β
Molecular Doping of Porous Organic Cages
No full textPorous organic cages can act as hosts for the three-dimensional alignment of guests such as halogens and organometallics. Porous single crystals are doped by vapor sublimation to produce diamondoid arrangements of guests such as I5β and OsO4, leading to marked conductivity enhancement in the case of I5β
Molecular Doping of Porous Organic Cages
No full textPorous organic cages can act as hosts for the three-dimensional alignment of guests such as halogens and organometallics. Porous single crystals are doped by vapor sublimation to produce diamondoid arrangements of guests such as I5β and OsO4, leading to marked conductivity enhancement in the case of I5β
Molecular Doping of Porous Organic Cages
No full textPorous organic cages can act as hosts for the three-dimensional alignment of guests such as halogens and organometallics. Porous single crystals are doped by vapor sublimation to produce diamondoid arrangements of guests such as I5β and OsO4, leading to marked conductivity enhancement in the case of I5β
Molecular Doping of Porous Organic Cages
No full textPorous organic cages can act as hosts for the three-dimensional alignment of guests such as halogens and organometallics. Porous single crystals are doped by vapor sublimation to produce diamondoid arrangements of guests such as I5β and OsO4, leading to marked conductivity enhancement in the case of I5β
Molecular Doping of Porous Organic Cages
No full textPorous organic cages can act as hosts for the three-dimensional alignment of guests such as halogens and organometallics. Porous single crystals are doped by vapor sublimation to produce diamondoid arrangements of guests such as I5β and OsO4, leading to marked conductivity enhancement in the case of I5β
Molecular Doping of Porous Organic Cages
No full textPorous organic cages can act as hosts for the three-dimensional alignment of guests such as halogens and organometallics. Porous single crystals are doped by vapor sublimation to produce diamondoid arrangements of guests such as I5β and OsO4, leading to marked conductivity enhancement in the case of I5β
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