You may be trying to access this site from a secured browser on the server. Please enable scripts and reload this page.
Turn on more accessible mode
Turn off more accessible mode
Skip Ribbon Commands
Skip to main content
Turn off Animations
Turn on Animations
To navigate through the Ribbon, use standard browser navigation keys. To skip between groups, use Ctrl+LEFT or Ctrl+RIGHT. To jump to the first Ribbon tab use Ctrl+[. To jump to the last selected command use Ctrl+]. To activate a command, use Enter.
Browse
Tab 1 of 3.
List Tools
Items
List Tools group. Tab 2 of 3.
List
List Tools group. Tab 3 of 3.
Follow
Dr. Mohammad Khanfar
Currently selected
MY CV
About Me
Contact Me
Office Hours
Research Interests
It looks like your browser does not have JavaScript enabled. Please turn on JavaScript and try again.
Academic Information
Research Interests
Currently selected
Published Research
Published Books
Patency
Academic Conferences
Theses/Dissertations Supervision
Award/Prizes/Orders
Funded Research/Project
Taught Courses
Ongoing Research
Other Academic Activities
Main Menu
News
Announcements
Calendar
Documents
Usefull Links
My Documents
My Contacts
My Gallery
Courses
Materials
Homeworks
About Me
Contact Me
Office Hours
Site Contents
Research Interests
Details
Multi-step organic synthesis of biologically active compounds and lead optimization.
Lead compounds identified either by natural sources or virtual screening are subjected to extensive chemical modification to explore their pharmacophoric space and modify their physiochemical properties to understand their structure-activity relationships and to attain maximum potency and optimum pharmacokinetic properties.
Design and discovery of active compounds assisted by computational chemistry using ligand-based and structure-based molecular modeling simulations.
Molecular modeling studies towards the discovery and design of new biologically active compounds having new scaffolds employing docking simulations, pharmacophoric mapping, QSAR and 3D-QSAR analysis, and virtual screening. Particular interest focus on cancer and neurological diseases such as Parkinson and Huntington's disease.
Developing new natural and synthetic polymeric materials of interesting pharmaceutical applications.
Application of natural and synthetic polymers, particularly biodegradable, in the development of new drug delivery systems for various applications and routes.
Follow
javascript: SP.SOD.executeFunc('followingcommon.js', 'FollowDoc', function() { FollowDoc('{ListId}', {ItemId}); });
0x0
0x0
ContentType
0x01
1100
Compliance Details
javascript:if (typeof CalloutManager !== 'undefined' && Boolean(CalloutManager) && Boolean(CalloutManager.closeAll)) CalloutManager.closeAll(); commonShowModalDialog('{SiteUrl}'+ '/_layouts/15/itemexpiration.aspx' +'?ID={ItemId}&List={ListId}', 'center:1;dialogHeight:500px;dialogWidth:500px;resizable:yes;status:no;location:no;menubar:no;help:no', function GotoPageAfterClose(pageid){if(pageid == 'hold') {STSNavigate(unescape(decodeURI('{SiteUrl}'))+ '/_layouts/15/hold.aspx' +'?ID={ItemId}&List={ListId}'); return false;} if(pageid == 'audit') {STSNavigate(unescape(decodeURI('{SiteUrl}'))+ '/_layouts/15/Reporting.aspx' +'?Category=Auditing&backtype=item&ID={ItemId}&List={ListId}'); return false;} if(pageid == 'config') {STSNavigate(unescape(decodeURI('{SiteUrl}'))+ '/_layouts/15/expirationconfig.aspx' +'?ID={ItemId}&List={ListId}'); return false;}}, null);
0x0
0x1
ContentType
0x01
898
Document Set Version History
/_layouts/15/images/versions.gif?rev=40
javascript:SP.UI.ModalDialog.ShowPopupDialog('{SiteUrl}'+ '/_layouts/15/DocSetVersions.aspx' + '?List={ListId}&ID={ItemId}')
0x0
0x0
ContentType
0x0120D520
330
Send To other location
/_layouts/15/images/sendOtherLoc.gif?rev=40
javascript:GoToPage('{SiteUrl}' + '/_layouts/15/docsetsend.aspx' + '?List={ListId}&ID={ItemId}')
0x0
0x0
ContentType
0x0120D520
350