#DICP #YearOfTheSnake #CAS 🐍🎉As the Year of the Snake arrives, our campus is filled with joy and celebration! 🥳🎈Happy Chinese New Year! Wishing everyone a year filled with wisdom, prosperity, and endless possibilities!

#DICP #YearOfTheSnake #CAS 🐍Where are DICPers celebrating this Year of the Snake? 📡In the lab, at home, or exploring new horizons,we want to hear from you! 💌Drop your stories and photos in comments below. 🎉Let’s celebrate innovation, discovery, and new beginnings together!

#DICPResearchNews Prof. JIANG Ling's group recently found that the smallest three-dimensional neutral boron cluster is composed of nine boron atoms in the photoionization efficiency spectroscopic studies of boron clusters. @angew_chem Read more:

They have achieved an ammonia Faradaic efficiency of around 90% at a high current density of 1.5 A cm−2 for up to 300 h.

#DICPResearchNews #Ammonia Prof. GAO Dunfeng's group developed an efficient and stable amorphous/crystalline dual-phase Cu catalyst towards electrocatalytic nitrate reduction reaction. The study was published in @NatureComms. Read more:

#DICPResearchNews #SAC Researchers developed a novel "suspended" Re single-atom catalysts with protuberant active sites to reduce the steric hindrance in the transformation process involving big-size molecular reactant. @J_A_C_S Read More:

This catalyst features Rh-Zn atomic-pair dual sites confined within a MoS2 lattice, integrated with TiO2 nanoparticles. It enables a CH3COOH productivity of 152 μmol gcat.-1 h-1, and a turnover frequency of 62 h-1 with a high selectivity of 96.5%.

#DICPResearchNews #Methane #Acetic Acid Prof. DENG Dehui's group successfully achieved highly efficient photo-driven carbonylation of CH4 with CO and O2 to CH3COOH using a nano-heterostructure catalyst. The study was published in @NatureComms Read more:

⚡️The efficiency of this new method is 2.6 ~ 16.3 times as the conventional dipolar-based INEPT method. 🦸‍♂️This method excels in enhancing the sensitivity to quadrupolar nuclear, establishing multi-dimensional spectra, as well as extracting internuclear distances.

#DICPResearcherNews #NMR Prof. HOU Guangjin's group develop a new solid-state NMR pulse sequence for efficient sensitivity enhancement, named DEER-INEPT. The study was published in Chemical Science. Read more:

#DICPResearchNews Scientists discover a gut-brain mechanism regulating sugar cravings! Low levels of FFAR4 and the gut microbe B. vulgatus influence sugar preference, offering new insights for diabetes prevention. @NatureMicrobiol Read more:

This pilot utilizes a novel "one-pot" synthesize method for magnesium-based solid-state hydrogen storage materials developed by Prof. CHEN Ping and Prof. CAO Hujun’s team from DICP.

#DICPResearchNews #HydrogenEnergy #CleanTech #magnesiumHydride #HydrogenStorage A new pilot project for producing 150 tons of magnesium hydride per year completed its first trial run, yielding qualified products from a single feedstock input. Read more:

This study was reported by Prof. XIAO Jianping's team and it provides a pathway for the rational design of confined catalysis.

#DICPResearchNews Chemical reactions in confined catalysis can be accelerated, but sometimes activity is suppressed. Using Grand Canonical Monte Carlo and machine learning, revealing compressive strain is crucial for confinement effects. Read more:

RT @angew_chem: Zeolite Encapsulation to Enhance Interfacial Gas Availability for Photocatalytic Hydrogen Peroxide Production (Rengui Li an…

🚩Stabilizes the anode/electrolyte interface ⛔️Preventing dendrites and corrosion 🎉Boosting cycling stability and durability #ZIBs #anode

#DICPResearchNews #ZIBs Prof. YANG Weishen's group developed a dynamic hydrophobic monolayer with carbon dots to enhance zinc anode reversibility in aqueous zinc-ion batteries. The sutdy was published in ACS Nano @acsnano Read more:

By forming Pt-Fe-Pt heterotrimers on α-Fe nanoparticles via H2 reduction, they enhanced hydrogenation selectivity and activity, achieving a 35-fold increase in the rate for crotonaldehyde hydrogenation. This study addresses activity-selectivity trade-off in catalytic reactions.

#DICPResearchNews A research group led by Prof. SHEN Wenjie has achieved atomic precision in tuning bimetallic catalyst active sites. The study was published in Chem. @Chem_CP Read More: