Add to ORKGThe identification of bis-3-(\(\it N,N\)-dimethylamino)propyl zinc ([Zn(DMP)\(_2\)], BDMPZ) as a safe and potential alternative to the highly pyrophoric diethyl zinc (DEZ) as atomic layer deposition (ALD) precursor for ZnO thin films is reported. Owing to the intramolecular stabilization, BDMPZ is a thermally stable, volatile, nonpyrophoric solid compound, however, it possesses a high reactivity due to the presence of Zn-C and Zn-N bonds in this complex. Employing this precursor, a new oxygen plasma enhanced (PE)ALD process in the deposition temperature range of 60 and 160 °C is developed. The resulting ZnO thin films are uniform, smooth, stoichiometric, and highly transparent. The deposition on polyethylene terephthalate (PET) at 60 °C res...
Zinc oxide (ZnO) thin films were prepared following a chemical, deposition technique using a sodium ...
In this work, thin films of zinc oxide (ZnO) for gas-sensor applications were deposited on platinum ...
Zinc oxide thin films have been deposited at high growth rates (up to ~1 nm/s) by spatial atomic lay...
The identification of bis-3-(\(\it N,N\)-dimethylamino)propyl zinc ([Zn(DMP)\(_2\)], BDMPZ) as a saf...
The identification of bis-3-(\(\it N,N\)-dimethylamino)propyl zinc ([Zn(DMP)\(_2\)], BDMPZ) as a saf...
Good quality zinc oxide ZnO films were deposited on alumina substrates by the polymeric precursor me...
Room temperature operation is an extremely valuable goal in gas sensing research. Among the metal-ox...
Room temperature operation is an extremely valuable goal in gas sensing research. Among the metal-ox...
International audienceA reproducible organometallic approach was used in order to prepare zinc oxide...
International audienceA reproducible organometallic approach was used in order to prepare zinc oxide...
International audienceA reproducible organometallic approach was used in order to prepare zinc oxide...
The advent of “flexible” electronics on plastic substrates with low melting points requires the deve...
Zinc oxide (ZnO) thin films were prepared by a low cost chemical deposition technique using sodium z...
For atomic layer deposition (ALD) of doped, ternary, and quaternary materials achieved by combining ...
ZnO thin films were grown on silicon substrate by atomic layer deposition method. We explored double...
Zinc oxide (ZnO) thin films were prepared following a chemical, deposition technique using a sodium ...
In this work, thin films of zinc oxide (ZnO) for gas-sensor applications were deposited on platinum ...
Zinc oxide thin films have been deposited at high growth rates (up to ~1 nm/s) by spatial atomic lay...
The identification of bis-3-(\(\it N,N\)-dimethylamino)propyl zinc ([Zn(DMP)\(_2\)], BDMPZ) as a saf...
The identification of bis-3-(\(\it N,N\)-dimethylamino)propyl zinc ([Zn(DMP)\(_2\)], BDMPZ) as a saf...
Good quality zinc oxide ZnO films were deposited on alumina substrates by the polymeric precursor me...
Room temperature operation is an extremely valuable goal in gas sensing research. Among the metal-ox...
Room temperature operation is an extremely valuable goal in gas sensing research. Among the metal-ox...
International audienceA reproducible organometallic approach was used in order to prepare zinc oxide...
International audienceA reproducible organometallic approach was used in order to prepare zinc oxide...
International audienceA reproducible organometallic approach was used in order to prepare zinc oxide...
The advent of “flexible” electronics on plastic substrates with low melting points requires the deve...
Zinc oxide (ZnO) thin films were prepared by a low cost chemical deposition technique using sodium z...
For atomic layer deposition (ALD) of doped, ternary, and quaternary materials achieved by combining ...
ZnO thin films were grown on silicon substrate by atomic layer deposition method. We explored double...
Zinc oxide (ZnO) thin films were prepared following a chemical, deposition technique using a sodium ...
In this work, thin films of zinc oxide (ZnO) for gas-sensor applications were deposited on platinum ...
Zinc oxide thin films have been deposited at high growth rates (up to ~1 nm/s) by spatial atomic lay...