Today’s it’s titanium, a metal known for its strength and lightness so it’s ideal for making replacement hips, knees and other parts of our bodies, but it’s also used in other industries.Are you looking to Titanium batangan I’ll tell you at the end of the article.With the chemical symbol Ti and an atomic number of 22, titanium is a silver-coloured metal valued for its low density, high strength, and resistance to corrosion.Facts matter, no matter what platform you're reading them on.I first studied titanium via a Master’s degree at the Institute of Metal Research in the Chinese Academy of Sciences in 1999.Since then, the applications for this metal have grown exponentially, from its use (as titanium dioxide) in paints, paper, toothpaste, sunscreen and cosmetics, through to its use as an alloy in biomedical implants and aerospace innovations.Particularly exciting is the perfect marriage between titanium and 3D printing.For example, its high melting point (1,670℃, much higher than steel alloys) is a challenge.
(Washington University in St. Louis) Aridification in the central plains of China during the early Bronze Age did not cause population collapse, a result that highlights the importance of social resilience to climate change, according to new research from Washington University in St. Louis. Instead of a collapse amid dry conditions, development of agriculture and increasingly complex human social structures set the stage for a dramatic increase in human population around 3,900 to 3,500 years ago.
(Chinese Academy of Sciences Headquarters) A research team led by Prof. ZHANG Guangjin from the Institute of Process Engineering (IPE) of the Chinese Academy of Sciences fabricated Bi-BiVO4 Mott-Schottky heterostructure catalysts for efficient urea synthesis at ambient conditions.
The global market can gain from the increasing demand for research and development, its growing inclusion in several sectors, integration of better technologies, government funding for various research methods, and others are expected to take the global market ahead.The global market for the bacterial cell culture market has been discussed by Market Research Future (MRFR), where the analysts have revealed a possibility of attaining 8.2% CAGR during the forecast period of 2019 to 2025.Regional Analysis:The Americas would take charge of the global bacterial cell culture market.This is due to the rising investment in the sector made by countries like the US and Canada to inspire better pharmaceutical output and healthcare innovations.Industry News:In June 2020, researchers revealed that they have come up with a new function-based sequencing technique where they used optical tweezers and took advantage of the properties of gravity to analyze bacteria cells one by one.The study has been conducted by researchers from the Qingdao Institute of Bioenergy and Bioprocess Technology (QIBEBT) of the Chinese Academy of Sciences.This revelation can be deemed as a revolution as the size of the bacteria used to hinder the specific study earlier.
As technology for monitoring health and wellbeing expands its scope, the potential for misuse becomes a growing concern.
Promising protocol much easier to fingerprint than HTTPS Google's QUIC (Quick UDP Internet Connections) protocol, announced in 2013 as a way to make the web faster, waited seven years before being implemented in the ad giant's Chrome browser. But it still arrived before privacy could get there.…
ASOP effort could help bring GUIs to industrial, IoT, embedded gear Alibaba-owned T-Head Semiconductor says it has ported Android 10 to its own RISC-V chips, highlighting increased momentum for the open-source instruction set architecture (ISA) against proprietary alternatives.…
(Chinese Academy of Sciences Headquarters) A research group led by Prof. WAN Yinhua from the Institute of Process Engineering (IPE) of the Chinese Academy of Sciences developed a stable graphene oxide nanofiltration membrane with uniform pore size to remove organic micropollutants.
(University of Science and Technology of China) A team led by Prof. ZENG Jie from Hefei National Laboratory for Physical Sciences at the Microscale and Prof. BAO Jun from National Synchrotron Radiation Laboratory of University of Science and Technology of China of the Chinese Academy of Sciences made breakthrough in the controlled synthesis of Pd-Pt tesseracts for ORR and the mechanism investigation of their etching process.
(University of Science and Technology of China) Real-life applications like magnetometry or quantum gyroscope typically involve precise measurement on multiple parameters. How to achieve the ultimate precision limits simultaneously is a long sought-after grail in the field.
(Chinese Academy of Sciences Headquarters) Chinese researchers from Prof. WEN Liping's team at the Technical Institute of Physics and Chemistry and Prof. ZHANG Qianfan's team from Beihang University have recently made progress in the preparation and application of a bioinspired material that is capable of achieving controlled ion transport and sieving, especially for lithium-ion extraction.
China's Chang'e 5 mission to the moon has succeeded in bringing back nearly four pounds of lunar rock, which has been handed over to scientists for study.
(Institute of Atmospheric Physics, Chinese Academy of Sciences) Researchers from the Institute of Atmospheric Physics developed a land surface model CAS-LSM that has improved the descriptions of biogeochemical process and urban modules, compared with the earlier version of this model.
Global Healthcare Biosensors IoT Market size was valued over USD 17 billion in 2018 and is expected to witness growth of XX % CAGR from 2019 to 2026.Global Healthcare Biosensors IoT Market is driven by growing awareness regarding diabetes self-management has enabled integration of advanced technology in the glucometers driving the Global Healthcare Biosensors IoT Market growth.As per WHO, number of diabetic patients globally in 2016 were around 422 million that have escalated demand for glucose biosensors.Biosensors for measuring blood metabolites such as lactate, glucose, creatinine, and urea, using both optical and electrochemical modes of transduction, are being routinely used and commercially developed in the point of care testing, laboratories, and for self-testing in the case of glucose monitoring.Biosensors have applications in various segments in the healthcare industry.The report includes the analysis of impact of COVID-19 lock-down on the revenue of market leaders, followers, and disrupters.The report has covered the current short term and long term impact on the market, same will help decision makers to prepare the outline for short term and long term strategies for companies by region.The European Molecular Biology Laboratory’s European Institute (EMBL-EBI) and BBSRC, with support by the UK Government, made a commitment of approximately USD 93 million for ELIXIR research infrastructure in 2012.In addition, the Chinese Government is also investing heavily on its computing infrastructure majorly via the China Grid initiated by Chinese Academy of Sciences and Ministry of Education and the China National Grid (CNGrid) supported by the Ministry of Science and Technology.The past and current status of the industry with forecasted market size and trends are presented in the report with analysis of complicated data in simple language.
The traditional drug development process takes about 12 years on average and costs 2.7 billion dollars.Over the past three to four decades, the use of computational methods in the process of drug discovery has steadily increased and computations have become an integral part of discovery research.Employment of computer-aided drug discovery (CADD) techniques by top pharmaceutical companies and other research groups became essential for the preclinical stage of drug discovery to expedite the drug development process in a more cost-efficient way and to minimize failures in the final stage.Recently, Dr. Cui’s group at the Shenzhen Institutes of Advanced Technology (SIAT) of the Chinese Academy of Sciences provided an overview of different subjects of the computational-method-aided new drug discovery process with a focus on anticancer drugs, which was published on the Frontiers in Pharmacology.Since the first drug, Viracept, which was fully driven by its’ target structure, successfully developed, “computational methods have served as an essential tool in drug discovery projects and have been a cornerstone for new drug development approaches.” The advance in computational power, including massively parallel computing on graphical processing units (GPUs) and the continuous advances in artificial intelligence (AI) tools has also promoted the translation of fundamental research into practical applications in the drug discovery field.“There are several drugs, including anticancer drugs, whose corresponding target proteins (both primary and non-target) remain yet unidentified or unknown.” To solve this problem, a wide range of drug target interactive web servers that provides a series of drug-target databases (DrugBank, TTD, MATADOR, SuperTarget, etc) and prediction tools (SEA, Pharmamapper, Chemmapper, Tide, etc) has been established and various computational approaches can be used to study potential interactions between proteins and drugs.Capoten (captopril), an ACE (angiotensin-converting enzyme) inhibitor, was one of the first successful examples of using structural information to optimize drug designs in the 1980s.Since then, structure-based drug development started to serve as a novel and powerful algorithm and technique to promote faster, cheaper, and more effective drug development.Ligand-based drug discovery approaches include similarity searching, ligand-based pharmacophore mapping and QSAR modeling.Computational drug design has successfully promoted the discovery of several new anticancer drugs, including Gefitinib, Erlotinib, Sorafenib, Lapatinib, Abiraterone, and Crizotinib, which has become a milestone in this area.
On October 30, at the Huawei Mate 40 series conference in China, a large number of smart devices came out together. They include headphones, smart ...
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(Chinese Academy of Sciences Headquarters) To promote resource sharing and research cooperation for the synthetic biology and molecular breeding of industrial oil-producing microalgae, an international team led by Single-Cell Center (SCC), Qingdao Institute of Bioenergy and Bioprocess Technology (QIBEBT) of the Chinese Academy of Sciences (CAS), has released the "NanDeSyn Database" (http://www.nandesyn.org).
(Chinese Academy of Sciences Headquarters) All biological processes are in some way pH-dependent. Our human bodies, and those of other organisms, need to maintain specific- and constant- pH regulation in order to function. Changes in pH can have serious biological consequences or, as researchers at the Qingdao Institute of Bioenergy and Bioprocess Technology (QIBEBT), Chinese Academy of Sciences (CAS) found, serious benefits.
(Cell Press) As the pandemic persists, COVID-19 has claimed more than 200,000 lives in the United States and damaged the public health system and economy. In a study published on September 21 in the journal The Innovation, researchers at Emory University found that long-term exposure to urban air pollution may have made COVID-19 more deadly.
The meniscus is an important tissue in the knee joint to protect joint stability.At present, synthetic materials are mostly used for meniscus repair, but the biocompatibility of synthetic materials is insufficient, and the therapeutic effect on meniscus injury is poor.Therefore, it is urgent to develop materials with high biocompatibility and tissue-specific biological activity for clinical use.Recently, Yu Yin's team at the Institute of Synthetic Biology, Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, published a research article entitled “Injectable ECM hydrogel for delivery of BMSCs enabled full-thickness meniscus repair in an orthotopic rat model” in Bioactive Materials.In this study, a tissue-specific extracellular matrix (ECM) was obtained by decellularization of porcine meniscus, and it was prepared into an injectable hydrogel for loading bone marrow stem cells (BMSCs) to form a living biomaterial.It has been found that the ECM can promote chondrogenic differentiation of BMSCs; injection of this ECM-loaded BMSCs into the meniscus injury can repair the meniscus injury and inhibit joint degeneration.This study investigated its biocompatibility and chondrogenic properties, and evaluated its repair of meniscal injury and joint protection, which has important clinical significance for meniscal repair.Inspired by bionics, a tissue-specific extracellular matrix (ECM) was fabricated by decellularization of the medial third of the tissue (white area) of the porcine meniscus and prepared into an injectable hydrogel, which was then loaded with bone marrow stem cells (BMSCs) to form a bioactive intravital gel material for meniscus injury repair.