本综述系统探讨了通过调控光氧化还原半反应（如H2O、H2O2、O2、CO2还原）实现塑料废物在温和条件下定向转化为高值化学品（如H2、甲酸、乙酸）的新策略，为同步解决塑料污染与能源危机提供了创新思路。 塑料因其卫生性、耐用性和低成本等优点被广泛应用 ...

为解决传统蒽醌法合成H2O2的高能耗与污染问题，研究人员通过调控π电子密度设计新型共轭聚合物催化剂A-AB，实现*OH中间体稳定化，使H2O直接氧化生成H2O2的速率达8700 μmol g-1 h-1，为双路径光催化体系提供理论依据。 当前，过氧化氢（H 2 O 2 ）作为绿色氧化剂在 ...

Limited access to clean water is a major issue for billions of people in the developing world, where water sources are often contaminated with urban, industrial and agricultural waste. Many ...

A new study has put a remarkable and unexpected chemical genesis on more solid footing. Back in 2019, Stanford University researchers and colleagues revealed the surprising discovery that hydrogen ...

点击左上角“锂电联盟会长”，即可关注！ 太阳能是取之不尽用之不竭的绿色能源。按太阳光的能量密度计算，只要阳光照射地面1小时，就可以满足地球上1年所需的能量消耗。因此，面对当前的全球能源危机，吸收、储存、利用太阳能无疑是一条最有希望的途径 ...

Hydrogen peroxide (H2O2) is a versatile chemical in modern industry, widely applied in many different fields. To date, H2O2 is industrially manufactured by an indirect process that involves the ...

Ask the bombardier beetle—or rather, its enemies—if hydrogen peroxide has any biological use. Most of us think of hydrogen peroxide as a sterilizing agent, normally found in disinfectants and ...