0000000000874836

AUTHOR

Jianzhuang Jiang

showing 15 related works from this author

The lower rather than higher density charge carrier determines the NH 3 -sensing nature and sensitivity of ambipolar organic semiconductors

2018

International audience; Despite the extensive studies and great application potentials, the sensing nature of ambipolar organic semiconductor gas sensors still remains unclarified, unlike their inorganic counterparts. Herein, different numbers of thiophenoxy groups are introduced into the phthalocyanine periphery of bis(phthalocyaninato) rare earth semiconductors to continuously tune their HOMO and LUMO energies, resulting in the ambipolar M[Pc(SPh)(8)](2) [M = Eu (1), Ho (2)] and p-type M(Pc)[Pc(SPh)(8)] [M = Eu (3), Ho (4)]. An OFET in combination with direct I-V measurements over the devices from the self-assembled nanostructures of 1-4 revealed the original electron and hole densities (…

Materials sciencematerials designoxidizing no2Analytical chemistry02 engineering and technologyElectronthin-film transistors010402 general chemistry01 natural scienceslangmuir-blodgett-filmsgas sensorchemistry.chemical_compoundMaterials Chemistry[CHIM]Chemical SciencesGeneral Materials Sciencemolecular materialsHOMO/LUMOcopper-phthalocyanineOrganic field-effect transistorAmbipolar diffusionbusiness.industryfield-effect transistorschemical sensors021001 nanoscience & nanotechnology0104 chemical sciencesOrganic semiconductorSemiconductorchemistryPhthalocyanineCharge carrierdecker complexes0210 nano-technologybusiness
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Unconventional dihydrogen-bond interaction induced cyanide-bridged chiral nano-sized magnetic molecular wheel: synthesis, crystal structure and syste…

2019

A pair of cyanide-bridged 4d–3d heterobimetallic chiral macrocyclic enantiomeric magnetic complexes have been successfully assembled from the trans-dicyanoruthenium(III) building block [PPh4][Ru(Salen)(CN)2] (Salen = N,N-ethylenebis(salicylideneaminato)dianion) and [Mn((S,S/R,R)-Salcy)(H2O)2]ClO4 (Salcy = N,N′-(1,2-cyclohexanediylethylene)bis(salicylideneiminato)dianion) with the great help of the dihydrogen bond (DHB) interaction and characterized by elemental analysis, IR spectroscopy, circular dichroism (CD) and magnetic circular dichroism (MCD) spectroscopy. Single X-ray diffraction reveals that complex 1, {[Ru(Salen)(CN)2][R,R-Mn(Salcy)]}6·PPh3·6CH3CN·6CH3OH·12H2O, is a neutral dodecan…

Circular dichroismMaterials scienceMagnetismMagnetic circular dichroismInfrared spectroscopy02 engineering and technologyGeneral ChemistryCrystal structure010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesCrystallographyMaterials ChemistryDihydrogen bond0210 nano-technologySpectroscopyGround stateJournal of Materials Chemistry C
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Spin Crossover in a Series of Non-Hofmann-Type Fe(II) Coordination Polymers Based on [Hg(SeCN)3]− or [Hg(SeCN)4]2– Building Blocks

2021

Self-assembly of [Hg(SeCN)4]2- tetrahedral building blocks, iron(II) ions, and a series of bis-monodentate pyridyl-type bridging ligands has afforded the new heterobimetallic HgII-FeII coordination polymers {Fe[Hg(SeCN)3]2(4,4'-bipy)2}n (1), {Fe[Hg(SeCN)4](tvp)}n (2), {Fe[Hg(SeCN)3]2(4,4'-azpy)2}n (3), {Fe[Hg(SeCN)4](4,4'-azpy)(MeOH)}n (4), {Fe[Hg(SeCN)4](3,3'-bipy)}n (5) and {Fe[Hg(SeCN)4](3,3'-azpy)}n (6) (4,4-bipy = 4,4'-bipyridine, tvp = trans-1,2-bis(4-pyridyl)ethylene, 4,4'-azpy = 4,4'-azobispyridine, 3,3-bipy = 3,3'-bipyridine, 3,3'-azpy = 3,3'-azobispyridine). Single-crystal X-ray analyses show that compounds 1 and 3 display a two-dimensional robust sheet structure made up of infini…

Inorganic Chemistrychemistry.chemical_classificationBipyridinechemistry.chemical_compoundCrystallographyEthylenechemistrySpin crossoverLigandSheet structurePolymerPhysical and Theoretical ChemistryType (model theory)Inorganic Chemistry
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Facile approaches to build ordered amphiphilic tris(phthalocyaninato) europium triple-decker complex thin films and their comparative performances in…

2010

Solution processed thin films of an amphiphilic tris(phthalocyaninato) rare earth triple-decker complex, Eu(2)[Pc(15C5)(4)](2)[Pc(OC(10)H(21))(8)], have been prepared from three different methods: self-assembly (SA) annealed in solvent vapor, quasi-Langmuir-Shäfer (QLS) and drop casting methods. In particular, we successfully developed a simple QLS process for fabricating ordered multilayers with a good thickness control. The films prepared from three different methods were characterized by a wide range of methods including electronic absorption spectra, IR, X-ray diffraction, atomic force microscopy (AFM), and current-voltage (I-V) measurements. J-type aggregates have been formed with the …

Reaction rate constantchemistryAbsorption spectroscopyX-ray crystallographyStackingAnalytical chemistryGeneral Physics and Astronomychemistry.chemical_elementSelf-assemblyPhysical and Theoretical ChemistryThin filmEuropiumMolecular electronic transitionPhysical Chemistry Chemical Physics
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Two-Step Solution-Processed Two-Component Bilayer Phthalocyaninato Copper-Based Heterojunctions with Interesting Ambipolar Organic Transiting and Eth…

2016

International audience; The two-component phthalocyaninato copper-based heterojunctions fabricated from n-type CuPc(COOC8H17)(8) and p-type CuPc(OC8H17)(8) by a facile two-step solution-processing quasi-Langmuir-Shafer method with both n/p- and p/n-bilayer structures are revealed to exhibit typical ambipolar air-stable organic thin-film transistor (OTFT) performance. The p/n-bilayer devices constructed by depositing CuPc(COOC8H17)(8) film on CuPc(OC8H17)(8) sub-layer show superior OTFT performance with hole and electron mobility of 0.11 and 0.02 cm(2) V-1 s(-1), respectively, over the ones with n/p-bilayer heterojunction structure with the hole and electron mobility of 0.03 and 0.016 cm(2) …

Electron mobilityMaterials scienceroom-temperaturematerials designsemiconducting natureairsolution-processability02 engineering and technologythin-film transistorsphthalocyanines010402 general chemistry01 natural sciences[ CHIM ] Chemical Sciencesgas sensorchemistry.chemical_compound[CHIM]Chemical Sciencesorganic heterojunctioncomparative performancesbusiness.industryAmbipolar diffusionMechanical EngineeringBilayerethanol sensorsfield-effect transistorsHeterojunction[CHIM.MATE]Chemical Sciences/Material chemistry021001 nanoscience & nanotechnology0104 chemical sciencesIndium tin oxidechemistryMechanics of MaterialsThin-film transistor[ CHIM.MATE ] Chemical Sciences/Material chemistryPhthalocyanineOptoelectronicsfunctional theory calculationsField-effect transistor0210 nano-technologybusinessambipolar OTFTn-type
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Thin-Film Transistors: Two-Step Solution-Processed Two-Component Bilayer Phthalocyaninato Copper-Based Heterojunctions with Interesting Ambipolar Org…

2016

Materials scienceComponent (thermodynamics)Ambipolar diffusionbusiness.industryMechanical EngineeringBilayerTwo stepchemistry.chemical_elementHeterojunctionCopperSolution processedchemistryMechanics of MaterialsThin-film transistorOptoelectronicsbusinessAdvanced Materials Interfaces
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CCDC 2023440: Experimental Crystal Structure Determination

2021

Related Article: Tong Cao, Francisco Javier Valverde-Muñoz, Xiaoyi Duan, Mingjian Zhang, Ping Wang, Lingbao Xing, Fenggang Sun, Zhen Zhou, Hui Liu, Jianzhuang Jiang, M. Carmen Muñoz, José Antonio Real, Daopeng Zhang|2021|Inorg.Chem.|60|11048|doi:10.1021/acs.inorgchem.1c00802

Space GroupCrystallographyCrystal SystemCrystal StructureCell Parameterscatena-[bis(mu-44'-bipyridine)-tetrakis(mu-selenocyanato)-bis(selenocyanato)-iron(ii)-di-mercury(ii)]Experimental 3D Coordinates
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CCDC 2023441: Experimental Crystal Structure Determination

2021

Related Article: Tong Cao, Francisco Javier Valverde-Muñoz, Xiaoyi Duan, Mingjian Zhang, Ping Wang, Lingbao Xing, Fenggang Sun, Zhen Zhou, Hui Liu, Jianzhuang Jiang, M. Carmen Muñoz, José Antonio Real, Daopeng Zhang|2021|Inorg.Chem.|60|11048|doi:10.1021/acs.inorgchem.1c00802

Space GroupCrystallographyCrystal SystemCrystal StructureCell Parameterscatena-[bis(mu-44'-bipyridine)-tetrakis(mu-selenocyanato)-bis(selenocyanato)-iron(ii)-di-mercury(ii)]Experimental 3D Coordinates
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CCDC 2023442: Experimental Crystal Structure Determination

2021

Related Article: Tong Cao, Francisco Javier Valverde-Muñoz, Xiaoyi Duan, Mingjian Zhang, Ping Wang, Lingbao Xing, Fenggang Sun, Zhen Zhou, Hui Liu, Jianzhuang Jiang, M. Carmen Muñoz, José Antonio Real, Daopeng Zhang|2021|Inorg.Chem.|60|11048|doi:10.1021/acs.inorgchem.1c00802

catena-[(mu-44'-(ethene-12-diyl)dipyridine)-tetrakis(mu-selenocyanato)-iron(ii)-mercury(ii)]Space GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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CCDC 2023445: Experimental Crystal Structure Determination

2021

Related Article: Tong Cao, Francisco Javier Valverde-Muñoz, Xiaoyi Duan, Mingjian Zhang, Ping Wang, Lingbao Xing, Fenggang Sun, Zhen Zhou, Hui Liu, Jianzhuang Jiang, M. Carmen Muñoz, José Antonio Real, Daopeng Zhang|2021|Inorg.Chem.|60|11048|doi:10.1021/acs.inorgchem.1c00802

Space GroupCrystallographycatena-[bis(mu-44'-diazenediyldipyridine)-hexakis(mu-selenocyanato)-bis(selenocyanato)-bis(methanol)-di-iron(ii)-di-mercury(ii)]Crystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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CCDC 2023443: Experimental Crystal Structure Determination

2021

Related Article: Tong Cao, Francisco Javier Valverde-Muñoz, Xiaoyi Duan, Mingjian Zhang, Ping Wang, Lingbao Xing, Fenggang Sun, Zhen Zhou, Hui Liu, Jianzhuang Jiang, M. Carmen Muñoz, José Antonio Real, Daopeng Zhang|2021|Inorg.Chem.|60|11048|doi:10.1021/acs.inorgchem.1c00802

catena-[(mu-44'-(ethene-12-diyl)dipyridine)-tetrakis(mu-selenocyanato)-iron(ii)-mercury(ii)]Space GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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CCDC 1872883: Experimental Crystal Structure Determination

2019

Related Article: Daopeng Zhang, Joan Cano, Wenlong Lan, Hui Liu, Fenggang Sun, Yunhui Dong, Zhen Zhou, Lu Yang, Qingyun Liu, Jianzhuang Jiang|2019|J.Mater.Chem.C|7|3623|doi:10.1039/C8TC05650A

Space GroupCrystallographyCrystal SystemCrystal StructureCell Parametersdodecakis(mu-cyano)-hexakis(mu-22'-[cyclohexane-12-diylbis(azanylylidenemethylylidene)]diphenolato)-hexakis(mu-22'-[ethane-12-diylbis(azanylylidenemethylylidene)]diphenolato)-hexa-manganese(iii)-hexa-ruthenium(iii) triphenylphosphine acetonitrile methanol unknown solvate dodecahydrateExperimental 3D Coordinates
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CCDC 2023444: Experimental Crystal Structure Determination

2021

Related Article: Tong Cao, Francisco Javier Valverde-Muñoz, Xiaoyi Duan, Mingjian Zhang, Ping Wang, Lingbao Xing, Fenggang Sun, Zhen Zhou, Hui Liu, Jianzhuang Jiang, M. Carmen Muñoz, José Antonio Real, Daopeng Zhang|2021|Inorg.Chem.|60|11048|doi:10.1021/acs.inorgchem.1c00802

Space GroupCrystallographyCrystal SystemCrystal StructureCell Parameterscatena-[bis(mu-44'-diazenediyldipyridine)-tetrakis(mu-selenocyanato)-bis(selenocyanato)-iron(ii)-di-mercury(ii)]Experimental 3D Coordinates
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CCDC 2023446: Experimental Crystal Structure Determination

2021

Related Article: Tong Cao, Francisco Javier Valverde-Muñoz, Xiaoyi Duan, Mingjian Zhang, Ping Wang, Lingbao Xing, Fenggang Sun, Zhen Zhou, Hui Liu, Jianzhuang Jiang, M. Carmen Muñoz, José Antonio Real, Daopeng Zhang|2021|Inorg.Chem.|60|11048|doi:10.1021/acs.inorgchem.1c00802

Space GroupCrystallographyCrystal SystemCrystal StructureCell Parameterscatena-[(mu-33'-bipyridine)-tetrakis(mu-selenocyanato)-iron(ii)-mercury(ii)]Experimental 3D Coordinates
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CCDC 2023447: Experimental Crystal Structure Determination

2021

Related Article: Tong Cao, Francisco Javier Valverde-Muñoz, Xiaoyi Duan, Mingjian Zhang, Ping Wang, Lingbao Xing, Fenggang Sun, Zhen Zhou, Hui Liu, Jianzhuang Jiang, M. Carmen Muñoz, José Antonio Real, Daopeng Zhang|2021|Inorg.Chem.|60|11048|doi:10.1021/acs.inorgchem.1c00802

Space GroupCrystallographyCrystal SystemCrystal StructureCell Parameterscatena-[(mu-33'-diazenediyldipyridine)-tetrakis(mu-selenocyanato)-iron(ii)-mercury(ii)]Experimental 3D Coordinates
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