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1.
Nat Mater ; 20(8): 1142-1148, 2021 Aug.
Artigo em Inglês | MEDLINE | ID: mdl-33737728

RESUMO

As the features of microprocessors are miniaturized, low-dielectric-constant (low-k) materials are necessary to limit electronic crosstalk, charge build-up, and signal propagation delay. However, all known low-k dielectrics exhibit low thermal conductivities, which complicate heat dissipation in high-power-density chips. Two-dimensional (2D) covalent organic frameworks (COFs) combine immense permanent porosities, which lead to low dielectric permittivities, and periodic layered structures, which grant relatively high thermal conductivities. However, conventional synthetic routes produce 2D COFs that are unsuitable for the evaluation of these properties and integration into devices. Here, we report the fabrication of high-quality COF thin films, which enable thermoreflectance and impedance spectroscopy measurements. These measurements reveal that 2D COFs have high thermal conductivities (1 W m-1 K-1) with ultra-low dielectric permittivities (k = 1.6). These results show that oriented, layered 2D polymers are promising next-generation dielectric layers and that these molecularly precise materials offer tunable combinations of useful properties.

2.
J Am Chem Soc ; 142(50): 21131-21139, 2020 12 16.
Artigo em Inglês | MEDLINE | ID: mdl-33284624

RESUMO

Emergent quantum phenomena in electronically coupled two-dimensional heterostructures are central to next-generation optical, electronic, and quantum information applications. Tailoring electronic band gaps in coupled heterostructures would permit control of such phenomena and is the subject of significant research interest. Two-dimensional polymers (2DPs) offer a compelling route to tailored band structures through the selection of molecular constituents. However, despite the promise of synthetic flexibility and electronic design, fabrication of 2DPs that form electronically coupled 2D heterostructures remains an outstanding challenge. Here, we report the rational design and optimized synthesis of electronically coupled semiconducting 2DP/2D transition metal dichalcogenide van der Waals heterostructures, demonstrate direct exfoliation of the highly crystalline and oriented 2DP films down to a few nanometers, and present the first thickness-dependent study of 2DP/MoS2 heterostructures. Control over the 2DP layers reveals enhancement of the 2DP photoluminescence by two orders of magnitude in ultrathin sheets and an unexpected thickness-dependent modulation of the ultrafast excited state dynamics in the 2DP/MoS2 heterostructure. These results provide fundamental insight into the electronic structure of 2DPs and present a route to tune emergent quantum phenomena in 2DP hybrid van der Waals heterostructures.


Assuntos
Dissulfetos/química , Elétrons , Molibdênio/química , Polímeros/química , Modelos Moleculares , Conformação Molecular
3.
Bioorg Med Chem ; 24(20): 4970-4977, 2016 10 15.
Artigo em Inglês | MEDLINE | ID: mdl-27555285

RESUMO

RfaH protein functions as both transcription anti-terminator and translation enhancer in bacteria. Recent studies have shown that the C-terminal domain (CTD) is an α-helical hairpin (two-helix bundle) in full-length RfaH, despite the intrinsically favored ß-barrel structure. Here, we carried out µs-timescale molecular dynamics (MD) simulations for the wild-type (WT) RfaH, its E48S mutant and an established model without the intrinsically disordered region (IDR1) linking the CTD and the N-terminal domain (NTD). Our simulations showed that the WT can be well stabilized by our RSFF1 force field, while the E48S mutant and the model without IDR1 undergo considerable structural change, which is in good agreement with experimental observations. The IDR1 plays important roles in stabilizing the hydrophobic environment near the crucial E48-R138 salt-bridge as well as in tethering α4 helix in CTD to α3 helix in NTD. In the absence of the IDR1, destabilization of key interdomain contacts and unfolding of the CTD α5 helix were observed in the simulation. In addition, the intrinsically disordered tail of the CTD (IDR2) is also of great significance to stabilize the bound conformation of CTD. These findings provide important implications for consideration of simulations in revealing the functions of residues invisible in a crystal structure.


Assuntos
Proteínas de Escherichia coli/química , Simulação de Acoplamento Molecular , Fatores de Alongamento de Peptídeos/química , Transativadores/química , Modelos Moleculares
4.
Adv Mater ; 34(13): e2109348, 2022 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-35038370

RESUMO

Perovskite solar cells in which 2D perovskites are incorporated within a 3D perovskite network exhibit improved stability with respect to purely 3D systems, but lower record power conversion efficiencies (PCEs). Here, a breakthrough is reported in achieving enhanced PCEs, increased stability, and suppressed photocurrent hysteresis by incorporating n-type, low-optical-gap conjugated organic molecules into 2D:3D mixed perovskite composites. The resulting ternary perovskite-organic composites display extended absorption in the near-infrared region, improved film morphology, enlarged crystallinity, balanced charge transport, efficient photoinduced charge transfer, and suppressed counter-ion movement. As a result, the ternary perovskite-organic solar cells exhibit PCEs over 23%, which are among the best PCEs for perovskite solar cells with p-i-n device structure. Moreover, the ternary perovskite-organic solar cells possess dramatically enhanced stability and diminished photocurrent hysteresis. All these results demonstrate that the strategy of exploiting ternary perovskite-organic composite thin films provides a facile way to realize high-performance perovskite solar cells.

5.
Adv Mater ; 34(22): e2101932, 2022 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-34850459

RESUMO

2D polymers (2DPs) are promising as structurally well-defined, permanently porous, organic semiconductors. However, 2DPs are nearly always isolated as closed shell organic species with limited charge carriers, which leads to low bulk conductivities. Here, the bulk conductivity of two naphthalene diimide (NDI)-containing 2DP semiconductors is enhanced by controllably n-doping the NDI units using cobaltocene (CoCp2 ). Optical and transient microwave spectroscopy reveal that both as-prepared NDI-containing 2DPs are semiconducting with sub-2 eV optical bandgaps and photoexcited charge-carrier lifetimes of tens of nanoseconds. Following reduction with CoCp2 , both 2DPs largely retain their periodic structures and exhibit optical and electron-spin resonance spectroscopic features consistent with the presence of NDI-radical anions. While the native NDI-based 2DPs are electronically insulating, maximum bulk conductivities of >10-4  S cm-1 are achieved by substoichiometric levels of n-doping. Density functional theory calculations show that the strongest electronic couplings in these 2DPs exist in the out-of-plane (π-stacking) crystallographic directions, which indicates that cross-plane electronic transport through NDI stacks is primarily responsible for the observed electronic conductivity. Taken together, the controlled molecular doping is a useful approach to access structurally well-defined, paramagnetic, 2DP n-type semiconductors with measurable bulk electronic conductivities of interest for electronic or spintronic devices.

6.
Chem Asian J ; 16(22): 3781-3789, 2021 Nov 15.
Artigo em Inglês | MEDLINE | ID: mdl-34624932

RESUMO

Many efforts are currently devoted to improving the stability and crystallinity of imine-based two-dimensional (2D) covalent organic frameworks (COFs) given their wide range of potential applications. The variation in the relative orientations of the imine bonds has been found to be a critical factor that impacts the stacking of the 2D COF layers, leads to the formation of isomer structures, and influences the crystallinity of the final product. Most investigations to date have focused only on the structural properties, while the role of the imine orientations on the electronic properties has not been studied systematically. Here, we explore this effect by examining how the electronic band structures, electronic couplings, and effective masses evolve when considering four isomeric structures of an imine-linked tetraphenyl-pyrene naphthalene-diimide COF. Our results provide an understanding of the impact of the imine orientations and how they need to be controlled to realize COF inter-layer stackings that can lead to efficient cross-plane electron transport. They can be used to guide the design and synthesis of imine-based COFs for applications where charge transport needs to be optimized.

7.
J Chem Theory Comput ; 11(4): 1949-56, 2015 Apr 14.
Artigo em Inglês | MEDLINE | ID: mdl-26574396

RESUMO

An important application of all-atom explicit-solvent molecular dynamics (MD) simulations is the refinement of protein structures from low-resolution experiments or template-based modeling. A critical requirement is that the native structure is stable with the force field. We have applied a recently developed residue-specific force field, RSFF1, to a set of 30 refinement targets from recent CASP experiments. Starting from their experimental structures, 1.0 µs unrestrained simulations at 298 K retain most of the native structures quite well except for a few flexible terminals and long internal loops. Starting from each homology model, a 150 ns MD simulation at 380 K generates the best RMSD improvement of 0.85 Å on average. The structural improvements roughly correlate with the RMSD of the initial homology models, indicating possible consistent structure refinement. Finally, targets TR614 and TR624 have been subjected to long-time replica-exchange MD simulations. Significant structural improvements are generated, with RMSD of 1.91 and 1.36 Å with respect to their crystal structures. Thus, it is possible to achieve realistic refinement of protein structure models to near-experimental accuracy, using accurate force field with sufficient conformational sampling.


Assuntos
Simulação de Dinâmica Molecular , Proteínas/química , Estrutura Secundária de Proteína , Estrutura Terciária de Proteína , Temperatura
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