Switching from Molecules to Functional Materials: Breakthroughs in Photochromism With MOFs
GC Thaggard, BKPM Kankanamalage… - Advanced …, 2024 - Wiley Online Library
Photochromic materials with properties that can be dynamically tailored as a function of
external stimuli are a rapidly expanding field driven by applications in areas ranging from …
external stimuli are a rapidly expanding field driven by applications in areas ranging from …
DNA strand displacement based computational systems and their applications
C Chen, J Wen, Z Wen, S Song, X Shi - Frontiers in Genetics, 2023 - frontiersin.org
DNA computing has become the focus of computing research due to its excellent parallel
processing capability, data storage capacity, and low energy consumption characteristics …
processing capability, data storage capacity, and low energy consumption characteristics …
Toehold-mediated strand displacement in random sequence pools
Toehold-mediated strand displacement (TMSD) has been used extensively for molecular
sensing and computing in DNA-based molecular circuits. As these circuits grow in …
sensing and computing in DNA-based molecular circuits. As these circuits grow in …
Temporally controlled multistep division of DNA droplets for dynamic artificial cells
T Maruyama, J Gong, M Takinoue - Nature Communications, 2024 - nature.com
Synthetic droplets mimicking bio-soft matter droplets formed via liquid-liquid phase
separation (LLPS) in living cells have recently been employed in nanobiotechnology for …
separation (LLPS) in living cells have recently been employed in nanobiotechnology for …
DNAzyme-based dissipative DNA strand displacement for constructing temporal logic gates
M Hu, X Li, J Wu, M Yang, T Wu - Acs Nano, 2024 - ACS Publications
Toehold-mediated DNA strand displacement is the foundation of dynamic DNA
nanotechnology, encompassing a wide range of tools with diverse functions, dynamics, and …
nanotechnology, encompassing a wide range of tools with diverse functions, dynamics, and …
High-Speed Sequential DNA Computing Using a Solid-State DNA Origami Register
DNA computing leverages molecular reactions to achieve diverse information processing
functions. Recently developed DNA origami registers, which could be integrated with DNA …
functions. Recently developed DNA origami registers, which could be integrated with DNA …
Leveraging DNA-Based Nanostructures for Advanced Error Detection and Correction in Data Communication
R Gao, XS Wei, Z Chen, A Xie, W Dong - ACS nano, 2023 - ACS Publications
This study demonstrates the implementation of the Hamming code using DNA-based
nanostructures for error detection and correction in communication systems. The designed …
nanostructures for error detection and correction in communication systems. The designed …
Timed Pulses in DNA strand displacement reactions
Inspired by naturally occurring regulatory mechanisms that allow complex temporal pulse
features with programmable delays, we demonstrate here a strategy to achieve temporally …
features with programmable delays, we demonstrate here a strategy to achieve temporally …
Dynamic and Reversible Decoration of DNA‐Based Scaffolds
N Farag, M Đorđević, E Del Grosso… - Advanced Materials, 2023 - Wiley Online Library
An approach to achieving dynamic and reversible decoration of DNA‐based scaffolds is
demonstrated here. To do this, rationally engineered DNA tiles containing enzyme …
demonstrated here. To do this, rationally engineered DNA tiles containing enzyme …
Programmable molecular signal transmission architecture and reactant regeneration strategy driven by EXO λ for DNA circuits
The characteristics of DNA hybridization enable molecular computing through strand
displacement reactions, facilitating the construction of complex DNA circuits, which is an …
displacement reactions, facilitating the construction of complex DNA circuits, which is an …