Three empirical rules of interfacial potential and Gibb's energy with the radius,charge number of transfer ions and dielectric constant of organic phase are obtained for the ion transfer across the liquid-liquid i...Three empirical rules of interfacial potential and Gibb's energy with the radius,charge number of transfer ions and dielectric constant of organic phase are obtained for the ion transfer across the liquid-liquid interface,which are verified by the transfer of simple anions,dye ions and metal ions facilitated by neutral ionophores across the interface between water and some organic solvents, and deduced theoretically based on the electrostatic interaction of ion and high-permittivity solvent. The rules are proved to be effective of choosing supporting electrolytes and searching for new transfer system which follows the rule that r/n of transfer ion should be larger than that of electrolytes ion in water phase and less than that in organic phase.A rule for judgement of the charge sign of transfer ion is suggested firstly based on the relationship between interfacial half-wave potential and dielectric constant of organic phase.展开更多
This article reviews our recent progress on ultra-high density nanowires(NWs)array-based electronics.The superlattice nanowire pattern transfer(SNAP)method is utilized to produce aligned,ultra-high density Si NW array...This article reviews our recent progress on ultra-high density nanowires(NWs)array-based electronics.The superlattice nanowire pattern transfer(SNAP)method is utilized to produce aligned,ultra-high density Si NW arrays.We fi rst cover processing and materials issues related to achieving bulk-like conductivity characteristics from 1020 nm wide Si NWs.We then discuss Si NW-based fi eld-effect transistors(FETs).These NWs&NW FETs provide terrifi c building blocks for various electronic circuits with applications to memory,energy conversion,fundamental physics,logic,and others.We focus our discussion on complementary symmetry NW logic circuitry,since that provides the most demanding metrics for guiding nanofabrication.Issues such as controlling the density and spatial distribution of both p-and n-type dopants within NW arrays are discussed,as are general methods for achieving Ohmic contacts to both p-and n-type NWs.These various materials and nanofabrication advances are brought together to demonstrate energy effi cient,complementary symmetry NW logic circuits.展开更多
In this study, the electrical properties of Si Ge nanowires in terms of process and fabrication integrity,measurement reliability, width scaling, and doping levels were investigated. Nanowires were fabricated on Si Ge...In this study, the electrical properties of Si Ge nanowires in terms of process and fabrication integrity,measurement reliability, width scaling, and doping levels were investigated. Nanowires were fabricated on Si Geon oxide(SGOI) wafers with thickness of 52 nm and Ge content of 47%. The first group of Si Ge wires was initially formed by using conventional I-line lithography and then their size was longitudinally reduced by cutting with a focused ion beam(FIB) to any desired nanometer range down to 60 nm. The other nanowire group was manufactured directly to a chosen nanometer level by using sidewall transfer lithography(STL). It has been shown that the FIB fabrication process allows manipulation of the line width and doping level of nanowires using Ga atoms.The resistance of wires thinned by FIB was 10 times lower than STL wires which shows the possible dependency of electrical behavior on fabrication method.展开更多
The molecular transfer printing(MTP) technique has been invented to fabricate chemical patterns with high fidelity using homopolymer inks. In this work, we systematically studied the effects of the molecular weights...The molecular transfer printing(MTP) technique has been invented to fabricate chemical patterns with high fidelity using homopolymer inks. In this work, we systematically studied the effects of the molecular weights of homopolymer inks and transfer conditions on the MTP process. We explored a large range of molecular weights(~3.5-56 kg·mol^(-1)) of hydroxyl-terminated polystyrene(PS-OH) and hydroxyl-terminated poly(methyl methacrylate)(PMMA-OH) in the MTP process, and found that the resulting chemical patterns on replicas from all five blends were functional and able to direct the assembly of films of the same blends. The transfer temperature and the film annealing sequences had an impact on the MTP process. MTP was sensitive to the transfer temperature and could only be performed within a certain temperature range, i.e. higher than the glass transition temperature(T_g) of copolymers and lower than the rearrangement temperature of the assembled domains. Pre-organization of the blend films was also necessary for MTP since the preferential wetting of PMMA domains at the replica surface might result in the formation of a PMMA wetting layer to prevent the presentation of underlying chemical patterns to the replica surface.展开更多
基金This work was supported by the National Natural Science Foundation of China.
文摘Three empirical rules of interfacial potential and Gibb's energy with the radius,charge number of transfer ions and dielectric constant of organic phase are obtained for the ion transfer across the liquid-liquid interface,which are verified by the transfer of simple anions,dye ions and metal ions facilitated by neutral ionophores across the interface between water and some organic solvents, and deduced theoretically based on the electrostatic interaction of ion and high-permittivity solvent. The rules are proved to be effective of choosing supporting electrolytes and searching for new transfer system which follows the rule that r/n of transfer ion should be larger than that of electrolytes ion in water phase and less than that in organic phase.A rule for judgement of the charge sign of transfer ion is suggested firstly based on the relationship between interfacial half-wave potential and dielectric constant of organic phase.
基金supported by a subcontract from the MITRE Corporation,the MARCO center for Advanced Materials and Devices,and the National Science Foundation(NMF-CCF-05204490 and CCF-0541461).
文摘This article reviews our recent progress on ultra-high density nanowires(NWs)array-based electronics.The superlattice nanowire pattern transfer(SNAP)method is utilized to produce aligned,ultra-high density Si NW arrays.We fi rst cover processing and materials issues related to achieving bulk-like conductivity characteristics from 1020 nm wide Si NWs.We then discuss Si NW-based fi eld-effect transistors(FETs).These NWs&NW FETs provide terrifi c building blocks for various electronic circuits with applications to memory,energy conversion,fundamental physics,logic,and others.We focus our discussion on complementary symmetry NW logic circuitry,since that provides the most demanding metrics for guiding nanofabrication.Issues such as controlling the density and spatial distribution of both p-and n-type dopants within NW arrays are discussed,as are general methods for achieving Ohmic contacts to both p-and n-type NWs.These various materials and nanofabrication advances are brought together to demonstrate energy effi cient,complementary symmetry NW logic circuits.
基金Project support by the Swedish Foundation for Strategic Research "SSF" (No. EM-011-0002)the Scientific and Technological Research Council of Turkey (No.TüBiTAK)
文摘In this study, the electrical properties of Si Ge nanowires in terms of process and fabrication integrity,measurement reliability, width scaling, and doping levels were investigated. Nanowires were fabricated on Si Geon oxide(SGOI) wafers with thickness of 52 nm and Ge content of 47%. The first group of Si Ge wires was initially formed by using conventional I-line lithography and then their size was longitudinally reduced by cutting with a focused ion beam(FIB) to any desired nanometer range down to 60 nm. The other nanowire group was manufactured directly to a chosen nanometer level by using sidewall transfer lithography(STL). It has been shown that the FIB fabrication process allows manipulation of the line width and doping level of nanowires using Ga atoms.The resistance of wires thinned by FIB was 10 times lower than STL wires which shows the possible dependency of electrical behavior on fabrication method.
基金finically supported by the National Natural Science Foundation of China(Nos.51773201 and 51373166)“The Hundred Talents Program”from the Chinese Academy of Sciences,and Department of Science and Technology of Jilin Province(Nos.20150204027GX and 20160414032GH)
文摘The molecular transfer printing(MTP) technique has been invented to fabricate chemical patterns with high fidelity using homopolymer inks. In this work, we systematically studied the effects of the molecular weights of homopolymer inks and transfer conditions on the MTP process. We explored a large range of molecular weights(~3.5-56 kg·mol^(-1)) of hydroxyl-terminated polystyrene(PS-OH) and hydroxyl-terminated poly(methyl methacrylate)(PMMA-OH) in the MTP process, and found that the resulting chemical patterns on replicas from all five blends were functional and able to direct the assembly of films of the same blends. The transfer temperature and the film annealing sequences had an impact on the MTP process. MTP was sensitive to the transfer temperature and could only be performed within a certain temperature range, i.e. higher than the glass transition temperature(T_g) of copolymers and lower than the rearrangement temperature of the assembled domains. Pre-organization of the blend films was also necessary for MTP since the preferential wetting of PMMA domains at the replica surface might result in the formation of a PMMA wetting layer to prevent the presentation of underlying chemical patterns to the replica surface.