Thermal management in microelectronics using nanotextured nonwoven coatings and spray cooling

People

Alexander L. Yarin
Dr. Seongchul Jun
Dr. Suman Sinha Ray
Dr. Rakesh Prasad Sahu
Sumit Sinha Ray

Sample Papers

Pool boiling on nano-textured surfaces comprised of electrically-assisted supersonically solution-blown, copper-plated nanofibers: Experiments and theory

Supersonically Blown Ultrathin Thorny Devil Nanofibers for Efficient Air Cooling

Nanofiber coating of surfaces for intensification of drop or spray impact cooling

Pool boiling on nano-textured surfaces

Drop impact cooling enhancement on nano-textured surfaces. Part I:
Theory and results of the ground (1 g) experiments

Drop impact cooling enhancement on nano-textured surfaces. Part II:
Results of the parabolic flight experiments [zero gravity (0g) and
supergravity (1.8g)]

Thorny Devil Nanotextured Fibers: The Way to Cooling Rates on the Order
of 1 kW/cm2

Nonisothermal drop impact and evaporation on polymer nanofiber mats

Inverse-Leidenfrost phenomenon on nanofiber mats on hot surfaces

Drop impact, spreading, splashing, and penetration into electrospun nanofiber mats

Nanofiber coating of surfaces for intensification of drop or spray impact cooling