Xianwei Zhou scite author profile

Semiconducting single-walled carbon nanotubes are studied in the diffusive transport regime. The peak mobility is found to scale with the square of the nanotube diameter and inversely with temperature. The maximum conductance, corrected for the contacts, is linear in the diameter and inverse temperature. These results are in good agreement with theoretical predictions for acoustic phonon scattering in combination with the unusual band structure of nanotubes. These measurements set the upper bound for the performance of nanotube transistors operating in the diffusive regime.

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The role of JAK/STAT signaling pathway and its inhibitors in diseases

Xin

Deng

et al. 2020

International Immunopharmacology

595

322

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Supported lipid bilayer/carbon nanotube hybrids

et al. 2007

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Carbon nanotube transistors combine molecular-scale dimensions with excellent electronic properties, offering unique opportunities for chemical and biological sensing. Here, we form supported lipid bilayers over single-walled carbon nanotube transistors. We first study the physical properties of the nanotube/supported lipid bilayer structure using fluorescence techniques. Whereas lipid molecules can diffuse freely across the nanotube, a membrane-bound protein (tetanus toxin) sees the nanotube as a barrier. Moreover, the size of the barrier depends on the diameter of the nanotube--with larger nanotubes presenting bigger obstacles to diffusion. We then demonstrate detection of protein binding (streptavidin) to the supported lipid bilayer using the nanotube transistor as a charge sensor. This system can be used as a platform to examine the interactions of single molecules with carbon nanotubes and has many potential applications for the study of molecular recognition and other biological processes occurring at cell membranes.

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Color Detection Using Chromophore-Nanotube Hybrid Devices

et al. 2009

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We present a nanoscale color detector based on a single-walled carbon nanotube functionalized with azobenzene chromophores, where the chromophores serve as photoabsorbers and the nanotube as the electronic read-out. By synthesizing chromophores with specific absorption windows in the visible spectrum and anchoring them to the nanotube surface, we demonstrate the controlled detection of visible light of low intensity in narrow ranges of wavelengths. Our measurements suggest that upon photoabsorption, the chromophores isomerize from the ground state trans configuration to the excited state cis configuration, accompanied by a large change in dipole moment, changing the electrostatic environment of the nanotube. All-electron ab initio calculations are used to study the chromophore-nanotube hybrids and show that the chromophores bind strongly to the nanotubes without disturbing the electronic structure of either species. Calculated values of the dipole moments support the notion of dipole changes as the optical detection mechanism.

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Fractionation and Characterization of Kraft Lignin by Sequential Precipitation with Various Organic Solvents

Jiang

Savithri

et al. 2016

ACS Sustainable Chem. Eng.

147

114

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The value-added utilizations of technical lignin are restricted by its heterogeneous features, such as high polydispersity, complex functional group distribution, ununiformed reactivity, etc. Fractionation of lignin into more homogeneous parts represents a promising approach to overcome this challenge. In the present study, softwood kraft lignin was fractionated into four different portions (F1, F2, F3, and F4) by first dissolving it in a methanol−acetone mixture followed by sequential precipitation with various organic solvents (ethyl acetate, 1:1 ethyl acetate/petroleum ether, petroleum ether) of decreasing solubility parameters. The yields of various fractions F1, F2, F3, and F4 were 48%, 39%, 10%, and 3%, respectively. The results from gel permeation chromatography indicated that the molecular weights of each fraction decreased from F1 to F4. The lowest molecular weight fraction F4 contained mainly monomeric and dimeric aromatic structures such as guaiacol and vanillin formed from lignin degradation. All fractions showed lower polydispersity than the starting kraft lignin. Chemical structures of F1, F2, and F3 were elucidated by elemental composition, methoxyl-content analysis, UV spectroscopy, and various NMR techniques ( 31 P, 13 C, and 2D HSQC). The results indicated that (1) the sulfur content in each fraction was similar; (2) all residual polysaccharides only existed in fraction F1; (3) the contents of various structural linkages and thermal properties of each fraction varied as a function of its molecular weight. Overall, the solvent assisted fractionation method of kraft lignin yielded four fractions with varied molecular weights and polydispersities. As these fractions exhibited different chemical properties they can be used favorably in various applications.

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Xianwei Zhou

Band Structure, Phonon Scattering, and the Performance Limit of Single-Walled Carbon Nanotube Transistors

The role of JAK/STAT signaling pathway and its inhibitors in diseases

Supported lipid bilayer/carbon nanotube hybrids

Color Detection Using Chromophore-Nanotube Hybrid Devices

Fractionation and Characterization of Kraft Lignin by Sequential Precipitation with Various Organic Solvents

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