The adsorption of the nucleic acid base, adenine, on Cu(110) surface has been studied with low-energy electron diffraction, scanning tunneling microscopy (STM), electron energy loss spectroscopy (EELS), and ab initio calculations. STM shows at low coverage an ordered one-dimensional molecular chain growing along (+/-1, 2) directions. At higher coverages, on annealing to 430 K, the chains order into chiral domains of ((1)(2)(6)(0)) periodicity. High-resolution STM images reveal the details of molecular structure within the unit cell. EELS shows that the molecular plane is parallel to the substrate with a tilted C-NH2 bond. Ab initio calculations confirm the molecular orientation and show an sp(3) hybridization on the N (amino) atom, which is...
The room-temperature adsorption of 4-aminobenzoic acid on a Cu(110) surface is studied with high-res...
Two molecular phases of the DNA base adenine (A) on a Au(111) surface are observed by using STM unde...
The major results of a series of our recent investigations on the self-assembly of amino acids on th...
The adsorption of the nucleic acid base, adenine, on Cu(110) surface has been studied with low-energ...
Understanding the adsorption properties of DNA bases on metal surfaces is fundamental for the ration...
The adsorption of biologically active molecules, such as the DNA bases, amino acids, on solid surfac...
The internal electronic structure of single deoxyribonucleic acid (DNA) base molecules (i.e., guanin...
The early stage of adsorption of adenine on Si(111)7×7 is studied by scanning tunneling microscopy ...
The self-assembly of the amino acid L-methionine on Cu(111) was investigated under ultrahigh vacuum ...
The adsorption of 2,6-naphthalenedicarboxylic acid (NDCA) molecules on the Ag(110), Cu(110), and Ag(...
Adsorption and self-assembly of glycine on the Cu(111) surface are studied by means of scanning tunn...
The local adsorption structure formed by the interaction of cytosine with a Cu(110) surface, followi...
Adsorption of thymine on a defined Cu(110) surface was studied using reflection-absorption infrared ...
We address the interplay of adsorption, chemical nature, and self-assembly of uracil on the Ag(111) ...
The ability of RNA bases to self-assemble into larger structures is an important research area relev...
The room-temperature adsorption of 4-aminobenzoic acid on a Cu(110) surface is studied with high-res...
Two molecular phases of the DNA base adenine (A) on a Au(111) surface are observed by using STM unde...
The major results of a series of our recent investigations on the self-assembly of amino acids on th...
The adsorption of the nucleic acid base, adenine, on Cu(110) surface has been studied with low-energ...
Understanding the adsorption properties of DNA bases on metal surfaces is fundamental for the ration...
The adsorption of biologically active molecules, such as the DNA bases, amino acids, on solid surfac...
The internal electronic structure of single deoxyribonucleic acid (DNA) base molecules (i.e., guanin...
The early stage of adsorption of adenine on Si(111)7×7 is studied by scanning tunneling microscopy ...
The self-assembly of the amino acid L-methionine on Cu(111) was investigated under ultrahigh vacuum ...
The adsorption of 2,6-naphthalenedicarboxylic acid (NDCA) molecules on the Ag(110), Cu(110), and Ag(...
Adsorption and self-assembly of glycine on the Cu(111) surface are studied by means of scanning tunn...
The local adsorption structure formed by the interaction of cytosine with a Cu(110) surface, followi...
Adsorption of thymine on a defined Cu(110) surface was studied using reflection-absorption infrared ...
We address the interplay of adsorption, chemical nature, and self-assembly of uracil on the Ag(111) ...
The ability of RNA bases to self-assemble into larger structures is an important research area relev...
The room-temperature adsorption of 4-aminobenzoic acid on a Cu(110) surface is studied with high-res...
Two molecular phases of the DNA base adenine (A) on a Au(111) surface are observed by using STM unde...
The major results of a series of our recent investigations on the self-assembly of amino acids on th...