Great video. A double check on the key point you addressed, the amount of empty states: Having more empty states means more bonding, more bond strength = stronger chemisorption? Having less empty states implies that electrons will more likely participate in the conduction band. Ergo, a higher electron conductivity implies less chemisorption?
Nice video, but one note: At 8:07, the binding energy expression should be Ii = hv - Ki (photon energy *minus* the kinetic energy detected, not plus). Right?
Great video. A double check on the key point you addressed, the amount of empty states:
Having more empty states means more bonding, more bond strength = stronger chemisorption?
Having less empty states implies that electrons will more likely participate in the conduction band.
Ergo, a higher electron conductivity implies less chemisorption?
Wow, understood everything you said! Thank you!
Excellent explanation of basic theories behind d-band thanks !
very clear and helpful video. Thank you.
Great lecture! Thanks.
Very helpful video, thank you
Nice video, but one note: At 8:07, the binding energy expression should be Ii = hv - Ki (photon energy *minus* the kinetic energy detected, not plus). Right?
Hi sir i am working in the area of electrocatalysis. I dont know how to find out the d-band centre. will u pls make a video on that.
Very good
excellent