[CCoE Notice] Cullen College Dissertation Defense Announcement - Khadar Basha Shaik

Hutchinson, Inez A iajackso at Central.UH.EDU
Mon Jul 24 11:29:59 CDT 2023 


[Dissertation Defense Announcement at the Cullen College of Engineering]
Tuning Phase Assembly of Block Copolymer Films for Large Strain Deformation and High-throughput  Membranes
Khadar Basha Shaik
July 27, 2023;   4:00 PM

Room: Chemical Engineering Conference Room (S234)
Via Teams: Teams Meeting Link: Click here to join the meeting<https://urldefense.com/v3/__https://teams.microsoft.com/l/meetup-join/19*3ameeting_NGIzMThmMGMtMTExZi00MzQ0LWE2MTctMjkyZjljMzE2MDk5*40thread.v2/0?context=*7b*22Tid*22*3a*22170bbabd-a2f0-4c90-ad4b-0e8f0f0c4259*22*2c*22Oid*22*3a*229691d41a-2bf0-4d84-8ac5-25b6f83fc3c2*22*7d__;JSUlJSUlJSUlJSUlJSUl!!LkSTlj0I!FVUeWMJId1U-LjCdxNKVde-yoH0d9nEndvb3U8e74Or0HWVfPqWI6dPskm_wVzp22AT1rAWhHUxkS4P2K3CzMYiTv-c$ >
      Meeting ID: 246 406 509 106 Passcode: nShEJ3

Committee Chair:
Alamgir Karim, PhD
Co-Chair:
Anil K. Bhowmick, PhD
Committee Members:
Jeremy Palmer, Ph.D. | Megan Robertson, Ph.D. | Devin Shaffer, Ph.D. |
Abstract
The peculiar morphologies of block copolymers (BCPs) offer an expansive platform to design and adjust specific properties, desirable for the improved functionality of their films or coatings. Due to this, they attracted substantial attention in industry and academia and found applications as thermoplastic elastomers, adhesives, filtration membranes, stretchable electronics, storage media, sensors, 3D printing filaments etc. In the first study, the tensile deformation of styrenic thermoplastic elastomer (TPE) films with glassy amorphous end blocks and ethylene-propylene elastomeric mid-block was examined. Polystyrene cylinders with lateral and vertical orientations were obtained by varying the thickness of the films and the choice of solvents. The mechanical properties of the triblock copolymer TPE films were dependent on the domain orientation and ordering which were then compared using deformation studies. Thermal based approaches were used in another study on the ~ 100 nm thin films of styrenic TPEs. Low glass transition temperature (Tg) of the rubbery block of the TPE contributes significantly to its fast ordering and enables to realize highly aligned dynamic cold-zone annealed (CZA) films even when a gradient maximum (Tmax) of 130-140 0C was applied. Shearing with soft layer on thin films brings about phase separated meandering blocks with horizontally and vertically oriented domains. In a separate study, permeability of liquids through the nanopores of membranes prepared from diblock copolymeric films was measured as a function of cylinder alignment. Here also, the solution casting conditions were carefully controlled to promote the formation of vertical domain structure. In order to maximize water fluxes, plasticizing additives with up to 60 wt% concentrations were added to the polymer solution before the thin films preparation. As the non-volatile additives migrate selectively towards the domains, increasing the plasticizer concentrations increases the pore dimensions. To withstand high transmembrane pressures in the process, 0.2-8.0 μm microporous membranes were tested as sandwich supports. Etching conditions were also varied to improve the performance of the membranes. Through various solution and thermal based approaches, the structure-property studies performed in this work investigates the interrelation between BCP morphology, mechanical properties and their membrane applications in thin and thick films.
[Engineered For What's Next]

-------------- next part --------------
An HTML attachment was scrubbed...
URL: http://Bug.EGR.UH.EDU/pipermail/engi-dist/attachments/20230724/f682e280/attachment-0001.html 
-------------- next part --------------
A non-text attachment was scrubbed...
Name: image001.jpg
Type: image/jpeg
Size: 14192 bytes
Desc: image001.jpg
Url : http://Bug.EGR.UH.EDU/pipermail/engi-dist/attachments/20230724/f682e280/attachment-0002.jpg 
-------------- next part --------------
A non-text attachment was scrubbed...
Name: image002.jpg
Type: image/jpeg
Size: 3256 bytes
Desc: image002.jpg
Url : http://Bug.EGR.UH.EDU/pipermail/engi-dist/attachments/20230724/f682e280/attachment-0003.jpg

More information about the Engi-Dist mailing list