内容提示: Contact line deposits in an evaporating dropRobert D. Deegan, Olgica Bakajin, Todd F. Dupont, Greg Huber, Sidney R. Nagel, and Thomas A. WittenJames Franck Institute, 5640 South Ellis Avenue, Chicago, Illinois 60637~Received 14 December 1998; revised manuscript received 26 October ...
Nagel, T.A. Witten, Contact line deposits in an evaporating drop, Phys. Rev. E 62 (2000) 756.Deegan, R. D.; Bakajin, O.; Dupont, T. F.; Huber, G.; Nagel, S. R.; Witten, T. A. Contact Line Deposits in an Evaporating Drop. Phys. Rev. E 2000, 62, 756-765....
Modelling the formation of structured deposits at receding contact lines of evaporating solutions and suspensions. Soft Matter 2012;8:11363-86.Fraštia, L.; Archer, A. J.; Thiele, U. Modelling the formation of structured deposits at receding contact lines of evaporating solutions and suspensions...
approaching that suggested by International Roadmap for Devices and Systems (IRDS)34. However, these “low-energy” evaporating processes only work with specific metals (such as In or Bi) and their thermal stability may need further assessment ...
Contact angle hysteresis is an important physical phenomenon. It is omnipresent in nature and also plays a crucial role in various industrial processes. Despite its relevance, there is a lack of consensus on how to incorporate a description of contact angle hysteresis into physical models. To clari...
Frastia L, Archer AJ, Thiele U (2012) Modelling the formation of structured deposits at receding contact lines of evaporating solutions and suspensions. Soft Matter 8: 11363-11386.L. Frastia, A. J. Archer, and U. Thiele. Modelling the formation of structured deposits at receding contact ...