Achieving current rectification ratios ≥ 10<sup>5</sup> across thin films of coordination polymer

Prasoon, Anupam; Dhara, Barun; Roy, Debashree; Rana, Shammi; Bhand, Sujit; Ballav, Nirmalya

doi:10.1039/c9sc03733k

Cited by 14 publications

(14 citation statements)

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“…Thus, top and bottom layers of our AB-type heterostructured thin film are behaving as n-type and p-type semiconductors, respectively, complementing I−V characteristics of commercial p−n junction Si diode (Figure S19). 59 To further support our claim on the emergence of p−n junction interface in AB-and BA-type heterostructured thin films, we have recorded capacitance−voltage (C−V) characteristics and plotted 1/C 2 versus V, the so-called Mott−Schottky (MS) plot. Our MS exhibited both positive and negative slopes with inverted V-like shape (likewise observed for inorganic oxide/sulfide semiconductor heterostructures 60,61 ) where the negative slope represents the p-type semiconductor Cu-BTC with a hole as the majority charge carrier and the positive slope represents the n-type semiconductor Cu-TCNQ with electrons as the majority charge carrier (Figure S20).…”

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confidence: 79%

Emergent Interface in Heterostructured Thin Films of Cu(II) and Cu(I) Coordination Polymers

Sindhu

Prasoon

Rana

et al. 2020

J. Phys. Chem. Lett.

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In this work we report fabrication of high-quality AB- and BA-type heterostructured thin films of cubic Cu(II) (A-type) and tetragonal Cu(I) (B-type) coordination polymers (CPs) on the functionalized Au substrate by the layer-by-layer method. Successful growth of Cu(I)-CP on top of Cu(II)-CP was assigned to be due to the interfacial reduction reaction (IRR). Notably, electrical transport measurements across AB- and BA-type heterostructured thin films revealed rectification of current in opposite directions. We have attributed such an interestingly new observation to the formation of a well-defined interface of Cu(II)-CP and Cu(I)-CP resembling a p–n junctiona hitherto unreported phenomenon that is anticipated to open enormous opportunities for the heterostructured thin films of CPs, likewise celebrated interfaces of oxide heterostructures.

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confidence: 79%

Emergent Interface in Heterostructured Thin Films of Cu(II) and Cu(I) Coordination Polymers

Sindhu

Prasoon

Rana

et al. 2020

J. Phys. Chem. Lett.

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“…Such an impregnation of TCNQ resulted in successful transformation of an insulating MOF (Cu-BTC) to a semiconductor material (TCNQ@Cu-BTC) 17 , 18 , 21 , 22 . Motivated by these remarkable observations, we have deliberately impregnated Cu-BPyDC thin film with TCNQ following our standardized procedure 35 (similar to the one reported by Allendorf et al 17 ) and performed a comparative assessment of TCNQ@Cu-BPyDC thin film with hetero-structured Cu-TCNQ/Cu-BPyDC thin film. It is worth to mention here that in a recent study 24 , we were able to successfully fabricate hetero-structured Cu-TCNQ/Cu-BTC thin film by carefully avoiding the impregnation of TCNQ in Cu-BTC framework, and the same approach has been adopted in the present work i.e., upon reducing the reaction time of the initial few LbL growth cycles of Cu-TCNQ on top of Cu-BPyDC thin film.…”

Section: Resultsmentioning

confidence: 99%

Charge-transfer interface of insulating metal-organic frameworks with metallic conduction

et al. 2022

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Downsizing materials into hetero-structured thin film configurations is an important avenue to capture various interfacial phenomena. Metallic conduction at the interfaces of insulating transition metal oxides and organic molecules are notable examples, though, it remained elusive in the domain of coordination polymers including metal-organic frameworks (MOFs). MOFs are comprised of metal centers connected to organic linkers with an extended coordination geometry and potential void space. Poor orbitals overlap often makes these crystalline solids electrical insulators. Herein, we have fabricated hetero-structured thin film of a Mott and a band insulating MOFs via layer-by-layer method. Electrical transport measurements across the thin film evidenced an interfacial metallic conduction. The origin of such an unusual observation was understood by the first-principles density functional theory calculations; specifically, Bader charge analysis revealed significant accumulation and percolation of charge across the interface. We anticipate similar interfacial effects in other rationally designed hetero-structured thin films of MOFs.

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“…[ 23 ] By a diffuse doping gradient of TCNQ in the film, a diode‐like current rectification was demonstrated. [ 24 ] With respect to electronic applications, field‐effect transistors, [ 25 ] solar cells [ 26 ] and light‐emitting diodes [ 27,28 ] with MOFs as active layer were realized. The efficiency of the presented devices is far from ideal, also due to the poorly‐defined interface between the layers.…”

Section: Figurementioning

confidence: 99%

Programmed Molecular Assembly of Abrupt Crystalline Organic/Organic Heterointerfaces Yielding Metal‐Organic Framework Diodes with Large On‐Off Ratios

et al. 2021

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Structurally well‐defined, crystalline organic/organic heterojunctions between C60‐ and anthracene‐based semiconductors are realized via layer‐by‐layer deposition of metal‐organic framework, MOF, thin films. As demonstrated by X‐ray diffraction, perfect epitaxy is achieved by adjusting the lattice constants of the two different MOFs. Deposition of top electrodes allows to fabricate p–n as well as n–p devices. Measurements of the electrical properties reveal the presence of high‐performance diodes, with a current on/off ratio of up to 6 orders of magnitude and an ideality factor close to unity. The crystalline nature of the abrupt organic/organic heterojunction provides the basis for a rational, simulation‐based optimization and tailoring of such organic semiconductor interfaces.

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Achieving current rectification ratios ≥ 10⁵ across thin films of coordination polymer

Abstract: A record value of the current rectification ratio (RR ≥ 105) across molecularly doped thin films of a Cu(ii)-coordination polymer is achieved.

Cited by 14 publications

References 53 publications

Emergent Interface in Heterostructured Thin Films of Cu(II) and Cu(I) Coordination Polymers

Emergent Interface in Heterostructured Thin Films of Cu(II) and Cu(I) Coordination Polymers

Charge-transfer interface of insulating metal-organic frameworks with metallic conduction

Programmed Molecular Assembly of Abrupt Crystalline Organic/Organic Heterointerfaces Yielding Metal‐Organic Framework Diodes with Large On‐Off Ratios

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Achieving current rectification ratios ≥ 105 across thin films of coordination polymer

Abstract: A record value of the current rectification ratio (RR ≥ 105) across molecularly doped thin films of a Cu(ii)-coordination polymer is achieved.

Cited by 14 publications

References 53 publications

Emergent Interface in Heterostructured Thin Films of Cu(II) and Cu(I) Coordination Polymers

Emergent Interface in Heterostructured Thin Films of Cu(II) and Cu(I) Coordination Polymers

Charge-transfer interface of insulating metal-organic frameworks with metallic conduction

Programmed Molecular Assembly of Abrupt Crystalline Organic/Organic Heterointerfaces Yielding Metal‐Organic Framework Diodes with Large On‐Off Ratios

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Achieving current rectification ratios ≥ 10⁵ across thin films of coordination polymer