A recent study has revealed how Epstein-Barr virus (EBV) intensifies ulcerative colitis (UC), a debilitating inflammatory bowel disease. 

In a major scientific advancement, researchers have decoded the genetic foundation of root system architecture (RSA) in alfalfa, a critical determinant of crop productivity and drought resilience. 

Tuberculosis (TB) remains a global health challenge, affecting millions each year. Globally, an estimated 10.8 million people contracted TB, with 1.25 million deaths. Genetic sequencing is one of the most promising advancements in TB management, which allows for early detection, personalized treatment, and better public health strategies.

Josephson microwave microscopy integrating Josephson junctions onto a nanoprobe enables spectroscopic imaging of near-field microwave with a broad bandwidth, presenting a non-destructive technique to characterize microwave devices.

Chinese researchers have made a major breakthrough by developing the world's first quantum microsatellite and demonstrating real-time QKD between the satellite and multiple compact, mobile ground stations. In collaboration with researchers from South Africa—and using the satellite as a trusted relay—they demonstrated successful secure key sharing and encrypted communication between Beijing and Stellenbosch—two cities separated by 12,900 km.

The research team led by Professor Aiwen Lei and Hong Yi from Wuhan University developed a tandem electro-thermal synthesis strategy to synthesize trivalent phosphorus compounds. By utilizing a TBAI-DMAP adduct as the catalytic system and employing white phosphorus and weakly nucleophilic reagents as starting materials, they successfully synthesized trivalent phosphorus transfer reagents with certain stability under high current density conditions. These reagents were then converted into various electron-rich trivalent phosphorus compounds through thermochemical transformation.

In a paper published in National Science Review, a team of Chinese scientists develop an AI-powered framework designed to achieve real-time, seamless retrieval of PM₁₀ concentrations. This breakthrough addresses the challenges of spatial gaps and nighttime observation deficiencies in current satellite-based PM10 data. It extends daily data to high-resolution, real-time hourly insights, providing strong support for precise dust storm monitoring.

In a paper published in National Science Review, a research team from Institute of Automation, Chinese Academy of Sciences and Nanjing University present an overview of the historical developments in Generative Artificial Intelligence (Generative AI). They grouped the developments of Generative AI into four categories: 1) rule-based generative systems, 2) model-based generative algorithms, 3) deep generative methodologies, and 4) foundation models. They also described potential research directions aimed at better utilizing, understanding, and harnessing Generative AI technologies.

Transfer learning, as a new machine learning methodology, may solve problems in related but different domains by using existing knowledge, and it is often applied to transfer training data from another domain for model training in the case of insufficient training data. In recent years, an increasing number of researchers who engage in brain-computer interface (BCI), have focused on using transfer learning to make most of the available electroencephalogram data from different subjects, effectively reducing the cost of expensive data acquisition and labeling as well as greatly improving the learning performance of the model. This paper surveys the development of transfer learning and reviews the transfer learning approaches in BCI. In addition, according to the “what to transfer” question in transfer learning, this review is organized into three contexts: instance-based transfer learning, parameter-based transfer learning, and feature-based transfer learning. Furthermore, the current transfer learning applications in BCI research are summarized in terms of the transfer learning methods, datasets, evaluation performance, etc. At the end of the paper, the questions to be solved in future research are put forward, laying the foundation for the popularization and in-depth research of transfer learning in BCI.