Results 211 to 220 of about 20,246 (268)

Heterogeneous Multilayer Nanopores via Chemically Tuned Dielectric Breakdown for Single‐Molecule Sensing

Small, EarlyView.
A scalable fabrication method based on chemically tuned controlled dielectric breakdown (CT‐CDB) enables heterogeneous multilayer nanopores integrating SiNx with 2D materials such as hBN, MoS2, and graphene. The resulting nanopores exhibit distinct electrokinetic behaviors and low noise, allowing structure‐dependent single‐protein sensing.
Chaoming Gu, Kamruzzaman Joty, Navod Thyashan, Ivan Vlassiouk, Liam Collins, Xingye Zhang, Christopher T. Nelson, Nathan Taton, Sangyoup Lee, Min Jun Kim   +9 more
wiley   +1 more source

Nanopore Electroporation: A New Delivery Method Within the Field of Epigenetic Editing

Small, EarlyView.
Nanopore‐mediated electroporation was used to deliver a CRISPRi system to clonal β‐cells. This enabled targeted downregulation of insulin expression while maintaining high cell viability. ABSTRACT Epigenetic modifications influence gene expression and contribute to type 2 diabetes (T2D), but establishing causality requires targeted modulation of ...
Frida Ekstrand, Sabrina Ruhrmann, Karl Bacos, Sabine Bartel, Pytrick Jellema, Marianne G. Rots, Charlotte Ling, Christelle N. Prinz   +7 more
wiley   +1 more source

Dynamics of a Molecular Plug Docked onto a Solid-State Nanopore. [PDF]

J Phys Chem Lett, 2018
Shi X, Li Q, Gao R, Si W, Liu SC, Aksimentiev A, Long YT.   +6 more
europepmc   +1 more source

Radiation‐Based 3D Dual‐Mode Thermal Management Devices: Advances in Active/Passive Switching for Energy‐Saving Applications

Small, EarlyView.
Heating and cooling energy demand account for nearly half of the global energy consumption. SH and RC offer sustainable, zero‐energy strategies, but single‐mode devices lack adaptability. 3D dual‐mode devices, exploiting axial, flipping, and bending deformations, provide reversible switching with dynamic or passive control, representing a promising ...
Su Eon Lee, Ho Jun Jin, Jun Hyun Park, Ha Uk Chung, Junyong Seo, Bong Hoon Kim   +5 more
wiley   +1 more source

PT2 - Solid-state nanopores for sensing

Proceedings IMCS 2018, 2018
R. E. Gyurcsányi, I. Makra, S. Papp, G. Jágerszki, P. Terejánszky, P. Fürjes   +5 more
openaire   +2 more sources

SERS‐Based Nano‐ and Microsystems Toward Biomedical Applications

Small, EarlyView.
This review provides a current overview of nano‐ and microscale SERS‐based devices, encompassing all aspects from material design to practical applications. We highlight controlled SERS‐active architectures, including patterned substrates, nanorods, microspheres, micromotors, and microneedles, as well as combinations of these microfluidic systems.
Gohar Soufi, Tijana Maric, Isidro Badillo‐Ramírez, Juliane Fjelrad Christfort, Matteo Tollemeto, Carmen Milan Guimera, Casper Nisula, Giulia Zappalá, Laura De Vittorio, Marta Rubio‐Huertas, Sungyeong Kim, Ziqiao Li, Morten Bo Søndergaard Svendsen, Zhongyang Zhang, Anja Boisen   +14 more
wiley   +1 more source

Solid-state nanopore sensing reveals conformational changes induced by a mutation in a neuron-specific tRNA ^Arg

Dutt S, Lai LB, Mehta R, Karawdeniya BI, Bandara YND, Clulow AJ, Glatt S, Gopalan V, Kluth P.   +8 more
europepmc   +1 more source

Controlled Focused Ion Beam Milling of Composite Solid State Nanopore Arrays for Molecule Sensing. [PDF]

Micromachines (Basel), 2019
Fürjes P.
europepmc   +1 more source

Cryogenic TDS Platform for Quantitative Hydrogen Isotope (H2/D2/HD) Separation via Quantum Sieving in Porous Materials

Small, EarlyView.
The AC‐TDS enables precise hydrogen isotope analysis over a wide temperature range (15–900 K), allowing both physisorption and chemisorption processes to be investigated under gas exposure conditions. Through calibration, this system achieves reliable quantitative desorption analysis, including direct quantification of H2, D2, and HD under mixed ...
Minji Jung, Hyunlim Kim, Michael Hirscher, Hyunchul Oh   +3 more
wiley   +1 more source

Mechanical characterization of HIV-1 with a solid-state nanopore sensor. [PDF]

Electrophoresis, 2019
Darvish A, Lee JS, Peng B, Saharia J, VenkatKalyana Sundaram R, Goyal G, Bandara N, Ahn CW, Kim J, Dutta P, Chaiken I, Kim MJ.   +11 more
europepmc   +1 more source