Microscale crystallization is at the frontier of chemical engineering,material science,and biochemical research and is affected by many factors.The precise regulation and control of microscale crystal processes is sti...Microscale crystallization is at the frontier of chemical engineering,material science,and biochemical research and is affected by many factors.The precise regulation and control of microscale crystal processes is still a major challenge.In the heterogeneous induced nucleation process,the chemical and micro/nanostructural characteristics of the interface play a dominant role.Ideal crystal products can be obtained by modifying the interface characteristics,which has been proven to be a promising strategy.This review illustrates the application of interface properties,including chemical characteristics(hydropho-bicity and functional groups)and the morphology of micro/nanostructures(rough structure and cavities,pore shape and pore size,surface porosity,channels),in various microscale crystallization controls and process intensification.Finally,possible future research and development directions are outlined to emphasize the importance of interfacial crystallization control and regulation for crystal engineering.展开更多
基金Creative Research Groups of the National Natural Science Foundation of China(Grant No.22021005)National Natural Science Foundation of China(Grant Nos.21978037 and 21978033)+3 种基金Fundamental Research Funds for the Central Universities(Grant No.DUT19TD33)National Key Research and Development Program of China(Grant No.2019YFE0119200)Support Plan of Innovative Talents of Liaoning Province(Grant Nos.XLYC1901005,XLYC1907149,XLYC1907063)Dalian Innovative Science and Technology Fund(Grant Nos.2020JJ26SN064 and 2021JJ12GX019).
文摘Microscale crystallization is at the frontier of chemical engineering,material science,and biochemical research and is affected by many factors.The precise regulation and control of microscale crystal processes is still a major challenge.In the heterogeneous induced nucleation process,the chemical and micro/nanostructural characteristics of the interface play a dominant role.Ideal crystal products can be obtained by modifying the interface characteristics,which has been proven to be a promising strategy.This review illustrates the application of interface properties,including chemical characteristics(hydropho-bicity and functional groups)and the morphology of micro/nanostructures(rough structure and cavities,pore shape and pore size,surface porosity,channels),in various microscale crystallization controls and process intensification.Finally,possible future research and development directions are outlined to emphasize the importance of interfacial crystallization control and regulation for crystal engineering.