A research team led by Prof. WAN Yinhua from the Institute of Process Engineering has developed a machine learning framework to analysis virus filtration processes in therapeutic protein purification. The new method enables intelligent identification of critical parameters affecting virus retention efficiency and provides predictive guidance for process optimization.
A research team led by Prof. WANG Shuqiang from the Shenzhen Institute of Advanced Technology of the Chinese Academy of Sciences introduced a Prior-Guided Adversarial Learning with Hypergraph (PALH) model for predicting abnormal connections in Alzheimer's disease.
A research team from the Yunnan Observatories of the Chinese Academy of Sciences, in collaboration with domestic and international partners, has carried out observational studies on SN 2024gy—a high-velocity Type Ia supernova (SN Ia)—using the Lijiang 2.4-meter telescope.
An international team of researchers from the Institute of Modern Physics and other institutions has systematically measured the β-decay half-lives of 40 nuclei near calcium-54, providing key experimental data for understanding the structure of extremely neutron-rich nuclei.
A research team led by Prof. BAI Shuo from the Institute of Process Engineering has pioneered a fully biodegradable, self-powered implantable electrical stimulation system designed to enhance muscle repair. The device operates independent of external power sources and does not compromise patient comfort.
Prof. ZHOU Yongjin's team from the Dalian Institute of Chemical Physics of the Chinese Academy of Sciences and Prof. Martin Grininger's team from Goethe University Frankfurt developed a modular and programmable fatty acid synthesis platform which enables high specificity production of medium-chain fatty acids in yeast.
Researchers from the Center for Excellence in Molecular Cell Science (Shanghai Institute of Biochemistry and Cell Biology) and Tongji University identified a fibrous-layer resident subpopulation of P-SSCs labeled by Angptl7. They found that these cells are crucial for bone fracture repair by mediating endochondral ossification, but exhibit minimal osteogenic capacity during postnatal bone development and maintenance.
A new study demonstrates that rapid, label-free readings from individual yeast cells can be translated into many of these same key process metrics—while also uncovering cell-to-cell variation masked by bulk testing methods.
Soils store more carbon than the atmosphere and vegetation combined, with soil microorganisms playing the main role. As a result, the global soil carbon cycle—by which carbon enters, moves through, and leaves soils worldwide—exerts a significant impact on climate change feedback. Now an important study led by researchers from the Institute of Earth Environment of the Chinese Academy of Sciences sheds new light on this cycle by overturning assumptions about the relationship between microbial respiration and carbon storage.
A new study led by a research team from the Nanjing Institute of Geography and Limnology of the Chinese Academy of Sciences has investigated DIN export patterns in a representative subtropical catchment in southeastern China. Leveraging the Hydrological Predictions for the Environment (HYPE) model, the study assessed the primary drivers of fluctuations in DIN export, as well as the potential impacts of projected future climate and land-use shifts.
A research team led by Prof. WANG Zhenyou at the Aerospace Information Research Institute of the Chinese Academy of Sciences has developed a microscopic time-gated Raman spectrometer capable of non-destructive, micrometer-scale chemical analysis of fragile archaeological ivory—even when strong fluorescence would normally obscure the signal.
A new study presents a zero-shot learning (ZSL) framework for maize cob phenotyping, enabling the extraction of geometric traits and estimation of yields in both laboratory and field settings without the need for model retraining.
Researchers from the Institute of Metal Research have developed a new class of high-performance materials for micro-electromechanical system switch chips, achieving an ultra-long fatigue life critical for 5G/6G communications, aerospace, industrial control and medical applications.
Drawing inspiration from the remarkable adaptability of the human eye, researchers from the Institute of Metal Research have developed a novel phototransistor with tunable sensitivity. This breakthrough provides an efficient solution for detecting low-contrast targets in complex visual environments, which is a critical challenge for advanced machine vision systems in applications such as precision guidance and smart surveillance.
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