Results 1 to 10 of about 5,648,885 (380)

Glucose Transport in Escherichia coli: From Basics to Transport Engineering [PDF]

Microorganisms, 2023
Escherichia coli is the best-known model for the biotechnological production of many biotechnological products, including housekeeping and heterologous primary and secondary metabolites and recombinant proteins, and is an efficient biofactory model to ...
Ofelia E. Carreón-Rodríguez, Guillermo Gosset, Adelfo Escalante, Francisco Bolívar   +3 more
doaj   +3 more sources

Engineering nanoscale hypersonic phonon transport [PDF]

Nature Nanotechnology, 2022
Abstract Controlling the vibrations in solids is crucial to tailor their mechanical properties and their interaction with light. Thermal vibrations represent a source of noise and dephasing for many physical processes at the quantum level. One strategy to avoid these vibrations is to structure a solid such that it possesses a phononic stop band,
O. Florez, G. Arregui, M. Albrechtsen, R. C. Ng, J. Gomis-Bresco, S. Stobbe, C. M. Sotomayor-Torres, P. D. García   +7 more
openaire   +7 more sources

Thermal Transport Engineering in Graphdiyne and Graphdiyne Nanoribbons. [PDF]

ACS Omega, 2019
Understanding the details of thermal transport in graphdiyne and its nanostructures would help to broaden their applications. On the basis of the molecular dynamics simulations and spectrally decomposed heat current analysis, we show that the high ...
Wan Y, Xiong S, Ouyang B, Niu Z, Ni Y, Zhao Y, Zhang X.   +6 more
europepmc   +2 more sources

Charge carrier injection and transport engineering in two-dimensional transition metal dichalcogenides. [PDF]

Chem Sci, 2018
This review intertwines current engineering strategies tailoring the carrier injection and carrier transport of two-dimensional transition metal dichalcogenides toward efficient electronic devices.
Durán Retamal JR, Periyanagounder D, Ke JJ, Tsai ML, He JH.   +4 more
europepmc   +2 more sources

ENGINEERING TRANSPORT BY CONCATENATED MAPS [PDF]

Fluctuation and Noise Letters, 2013
We present a generalized kick rotor model in which the phase of the kick can vary from kick to kick. This additional freedom allows one to control the transport in phase space. For a specific choice of kick-to-kick phases, we predict novel forms of accelerator modes which are potentially of high relevance for future experimental studies.
T. Schell, M. Sadgrove, K. Nakagawa, WIMBERGER, Sandro Marcel   +3 more
openaire   +6 more sources

Environmental engineering for quantum energy transport [PDF]

npj Quantum Information, 2018
AbstractTransport phenomena are ubiquitous throughout the science, engineering, and technology disciplines as it concerns energy, mass, charge, and information exchange between systems. In particular, energy transport in the nanoscale regime has attracted significant attention within the physical science community due to its potential to explain ...
Kae Nemoto, William J. Munro, William J. Munro, Chikako Uchiyama, Chikako Uchiyama   +4 more
openaire   +6 more sources

Controlling Quantum Transport via Dissipation Engineering [PDF]

Phys. Rev. Lett. 123, 180402 (2019), 2019
Inspired by the microscopic control over dissipative processes in quantum optics and cold atoms, we develop an open-system framework to study dissipative control of transport in strongly interacting fermionic systems, relevant for both solid state and cold atom experiments.
F. Damanet, E. Mascarenhas, D. Pekker, A. Daley   +3 more
arxiv   +3 more sources

Quantum simulation via filtered Hamiltonian engineering: application to perfect quantum transport in spin networks [PDF]

Phys. Rev. Lett. 110, 220503 (2013), 2012
We propose a method for Hamiltonian engineering in quantum information processing architectures that requires no local control, but only relies on collective qubit rotations and field gradients. The technique achieves a spatial modulation of the coupling strengths via a dynamical construction of a weighting function combined with a Bragg grating. As an
Ajoy, Ashok, Cappellaro, Paola
arxiv   +3 more sources

The Biophysics of Lymphatic Transport: Engineering Tools and Immunological Consequences. [PDF]

iScience, 2019
O'Melia MJ, Lund AW, Thomas SN.
europepmc   +2 more sources

Engineering Transport in Manganites by Tuning Local Non-Stoichiometry in Grain Boundaries [PDF]

Chiabrera, Francesco, et al. "Engineering transport in manganites by tuning local nonstoichiometry in grain boundaries." Advanced Materials (2018): 1805360, 2019
Interface-dominated materials such as nanocrystalline thin films have emerged as an enthralling class of materials able to engineer functional properties of transition metal oxides widely used in energy and information technologies. In particular, it has been proved that strain-induced defects in grain boundaries of manganites deeply impact their ...
Francesco Chiabrera, Íñigo Garbayo, Lluís López‐Conesa, Gemma Martín, Alicia Ruiz‐Caridad, Michael Walls, Luisa Ruiz‐González, Apostolos Kordatos, Marc Núñez, Álex Morata, Sònia Estradé, A. Chroneos, F. Peiró, Albert Tarancón   +13 more
arxiv   +3 more sources