Release behavior of fertilizers and heavy metals from iron-loaded sludge biochar in the aqueous environment.

In this study, the release behavior of fertilizers (NH-N, PO and K) and heavy metals (Mn, Zn, Ni, Cu, Pb and Cr) from iron-loaded sludge biochar (ISBC) was investigated to evaluated the feasibility and risks of ISBC as a slow release fertilizer. Their release capacity was significantly enhanced with decreasing initial pH, increasing solid-liquid ratio (R) and rising temperature (p < 0.05).

Assembly of Reusable DNA Blocks for Data Storage Using the Principle of Movable Type Printing.

Due to its high coding density and longevity, DNA is a compelling data storage alternative. However, current DNA data storage systems rely on the de novo synthesis of enormous DNA molecules, resulting in low data editability, high synthesis costs, and restrictions on further applications. Here, we demonstrate the programmable assembly of reusable DNA blocks for versatile data storage using the ancient movable type printing principle.

Shape-Programmable Liquid Metal Fibers.

Conductive and stretchable fibers are the cornerstone of intelligent textiles and imperceptible electronics. Among existing fiber conductors, gallium-based liquid metals (LMs) featuring high conductivity, fluidity, and self-healing are excellent candidates for highly stretchable fibers with sensing, actuation, power generation, and interconnection functionalities. However, current LM fibers fabricated by direct injection or surface coating have a limitation in shape programmability.

Surface-Embedded Liquid Metal Electrodes with Abrasion Resistance Direct Magnetic Printing.

Gallium-based liquid metals (LMs) featuring both high conductivity and fluidity are ideal conductors for soft and stretchable electronics. However, their liquid nature is a double-edged sword in many key applications since LMs are inherently prone to mechanical damage. Although additional encapsulation is frequently used for the protection of delicate LM electrodes, it hinders the electrical interfacing with other objects for interconnection, sensing, and stimulation.

Electrochemical DNA synthesis and sequencing on a single electrode with scalability for integrated data storage.

DNA has been considered as a compelling candidate for digital data storage due to advantages such as high coding density, long retention time, and low energy consumption. Despite many works reported, the development of a DNA-based database of full integration, high efficiency, and practical applicability is still challenging. In this work, we report the synthesis and sequencing of DNA on a single electrode with scalability for an integrated DNA-based data storage system.

Uncertainties in synthetic DNA-based data storage.

Deoxyribonucleic acid (DNA) has evolved to be a naturally selected, robust biomacromolecule for gene information storage, and biological evolution and various diseases can find their origin in uncertainties in DNA-related processes (e.g. replication and expression).

Magnetic Printing of Liquid Metal for Perceptive Soft Actuators with Embodied Intelligence.

Soft actuators with perception capability are essential for robots to intelligently interact with humans and the environment. However, existing perceptive soft actuators require complex integration and coupling between the discrete functional units to achieve autonomy. Here, we report entirely soft actuators with embodied sensing, actuation, and control at the single-unit level.

Wearable capillary microfluidics for continuous perspiration sensing.

Perspiration contains valuable information indicating physiological health. For most wearable perspiration sensors, the sensing element contacts with skin directly. Yet lack of precise fluidic manipulation unit limits accurate and continuous analysis considering perspiration aggregation, evaporation loss and electrolyte reabsorption by sweat glands.

A Design Method of Code Correlation Reference Waveform in GNSS Based on Least-Squares Fitting.

The multipath effect is one of the main error sources in the Global Satellite Navigation Systems (GNSSs). The code correlation reference waveform (CCRW) technique is an effective multipath mitigation algorithm for the binary phase shift keying (BPSK) signal. However, it encounters the false lock problem in code tracking, when applied to the binary offset carrier (BOC) signals.