Characterization of Thermo-Mechanical Damage in Tin and Sintered Nano-Silver Solders

January 2018

abstract: Increasing density of microelectronic packages, results in an increase in thermal and mechanical stresses within the various layers of the package. To accommodate the high-performance demands, the materials used in the electronic package would also require improvement. Specifically, the damage that often occurs in solders that function as die-attachment and thermal interfaces need to be addressed. This work evaluates and characterizes thermo-mechanical damage in two material systems – Electroplated Tin and Sintered Nano-Silver solder. Tin plated electrical contacts are prone to formation of single crystalline tin whiskers which can cause short circuiting. A mechanistic model of their formation, evolution and microstructural influence is still not fully understood. In this work, growth of mechanically induced tin whiskers/hillocks is studied using in situ Nano-indentation and Electron Backscatter Diffraction (EBSD). Electroplated tin was indented and monitored in vacuum to study growth of hillocks without the influence of atmosphere. Thermal aging was done to study the effect of intermetallic compounds. Grain orientation of the hillocks and the plastically deformed region surrounding the indent was studied using Focused Ion Beam (FIB) lift-out technique. In addition, micropillars were milled on the surface of electroplated Sn using FIB to evaluate the yield strength and its relation to Sn grain size. High operating temperature power electronics use wide band-gap semiconductor devices (Silicon Carbide/Gallium Nitride). The operating temperature of these devices can exceed 250oC, preventing use of traditional Sn-solders as Thermal Interface materials (TIM). At high temperature, the thermomechanical stresses can severely degrade the reliability and life of the device. In this light, new non-destructive approach is needed to understand the damage mechanism when subjected to reliability tests such as thermal cycling. In this work, sintered nano-Silver was identified as a promising high temperature TIM. Sintered nano-Silver samples were fabricated and their shear strength was evaluated. Thermal cycling tests were conducted and damage evolution was characterized using a lab scale 3D X-ray system to periodically assess changes in the microstructure such as cracks, voids, and porosity in the TIM layer. The evolution of microstructure and the effect of cycling temperature during thermal cycling are discussed. / Dissertation/Thesis / Doctoral Dissertation Materials Science and Engineering 2018

Materials Science

Engineering

Nano-Silver

Thermal Cycling

Thermal Interface Materials

Tin

Whiskers

X-Ray Tomography

Ecotoxicology of nanoparticles – effects on organisms from activated sludge in wastewater treatment plants

Burkart, Corinna

24 October 2017

Among all nanomaterials, which are intentionally manufactured and applied, nanosilver (nAg) is one of the most frequently applied nanomaterials. It is introduced into wastewater treatment plants (WWTPs) due to its use as antimicrobial resource in household and medical care products and hence concern raised regarding its impact on activated sludge organisms and their purification efficiency. Within this thesis, the effects of nAg on single species, simple food chains and communities related to activated sludge were investigated. Among all tested species in this thesis, the gammaproteobacteria R. planticola was the most sensitive organism regarding the tested nAg material, NM-300K. The environmental risk assessment (ERA), based on an assumed predicted environmental concentration derived from modeled concentrations of other types of nAg, revealed no risk for the activated sludge. This result should be interpreted with care, considering the tolerantly chosen safety factor for calculation of the predicted no effect concentration and the assumptions which were made concerning environmental concentrations. Differences in acute toxic effects of nAg on the ciliate P. tetraurelia were observed depending on the type of medium and the exposure pathway (via medium or via bacterial food). More detailed investigations are required to analyze the distribution, availability and uptake of nAg into ciliates in the respective tests. In chronic experiments concentration response was very steep in the range between the effect concentration determined in acute toxicity testing (resulting in 100% mortality) and a tenfold lower concentration (no effect observed) for both exposure pathways. Community experiments with activated sludge exposed to realistic and high concentrations of nAg revealed acute effects on the protozoan community at high nAg concentration using multivariate statistics for data analysis. In contrast, the sludge biotic index was not meaningful for data interpretation, as no differences were observed between the samples of different treatments. For chronic testing, more preliminary work is required to develop a protocol for artificial wastewater which serves the needs of activated sludge organisms over longer time periods and which retains a typical composition of the activated sludge community.

Ökotoxikologie

Nanomaterialien

Bakterien

Ciliaten

Belebtschlamm

Kläranlage

ecotoxicology

nano silver

ciliates

bacteria

activated sludge

wastewater treatment plants

ddc:530

rvk:ZI 6889

rvk:AR 22540

rvk:AR 22220

rvk:AR 21300

Ecotoxicology of nanoparticles – effects on organisms from activated sludge in wastewater treatment plants

Burkart, Corinna

21 November 2016

Among all nanomaterials, which are intentionally manufactured and applied, nanosilver (nAg) is one of the most frequently applied nanomaterials. It is introduced into wastewater treatment plants (WWTPs) due to its use as antimicrobial resource in household and medical care products and hence concern raised regarding its impact on activated sludge organisms and their purification efficiency. Within this thesis, the effects of nAg on single species, simple food chains and communities related to activated sludge were investigated. Among all tested species in this thesis, the gammaproteobacteria R. planticola was the most sensitive organism regarding the tested nAg material, NM-300K. The environmental risk assessment (ERA), based on an assumed predicted environmental concentration derived from modeled concentrations of other types of nAg, revealed no risk for the activated sludge. This result should be interpreted with care, considering the tolerantly chosen safety factor for calculation of the predicted no effect concentration and the assumptions which were made concerning environmental concentrations. Differences in acute toxic effects of nAg on the ciliate P. tetraurelia were observed depending on the type of medium and the exposure pathway (via medium or via bacterial food). More detailed investigations are required to analyze the distribution, availability and uptake of nAg into ciliates in the respective tests. In chronic experiments concentration response was very steep in the range between the effect concentration determined in acute toxicity testing (resulting in 100% mortality) and a tenfold lower concentration (no effect observed) for both exposure pathways. Community experiments with activated sludge exposed to realistic and high concentrations of nAg revealed acute effects on the protozoan community at high nAg concentration using multivariate statistics for data analysis. In contrast, the sludge biotic index was not meaningful for data interpretation, as no differences were observed between the samples of different treatments. For chronic testing, more preliminary work is required to develop a protocol for artificial wastewater which serves the needs of activated sludge organisms over longer time periods and which retains a typical composition of the activated sludge community.

info:eu-repo/classification/ddc/530

ddc:530

FABRICATION AND MASS TRANSPORT ANALYSIS OF TAPE CAST NANO-SILVER HIGH TEMPERATURE SOLDER

McCoppin, Jared Ray

January 2013

No description available.

Materials Science

Nanoscience

Nanotechnology

Nanosilver tape cast

nanosilver die attach

die attach

metal tape cast

laser deflection

bimetallic

biomorph

isothermal annealing, nano silver creep

Effects of nano silver on the growth of banana (Musa spp.) cultured in vitro

Do, Dang Giap, Dang, Thi Kim Thuy, Nguyen, Thi Huyen Trang, Nguyen, Thi Duoc, Tran, Trong Tuan, Duong, Duc Hieu

27 February 2019

Nano silver has positive effects on the growth and development of in vitro plants. In this study, shoots of in vitro banana with 1 cm in length were cut off the tip which was cultured in Murashige and Skoog (MS) medium supplemented with 30 g.L-1 sucrose, 15% coconut water (v/v), 5 mg. L-1 6-Benzyladenine (BA), 8 g.L-1 agar and nano silver (1, 3, 5, 7 ppm). After twenty days cultured, shoots in the medium supplemented with 1 ppm nano silver have grown well with 8.4 times multiplication and total chlorophyll content (2.05 mg.g-1), three-fold higher than in the control experiment. All new shoot samples were cultivated in a new medium with same component and supplemented with 1 mg.L-1 active charcoal to study root formation. The results showed that the best medium for root development was the one with 3 ppm nano silver. In this treatment, the height of shoots, number of leaves, number of roots, root length, fresh weight, dry weight and total chlorophyll content were 2.90 cm, 4.40 leaves per explant, 7.10 roots per explant, 7.7 cm per explant, 1.47 g per explant, 0.136 g and 3.17 mg.g-1, respectively. In vitro healthy seedlings with equal size were grown in nurseries. Different concentrations of nano silver (5, 10, 15 ppm) were sprayed on once a week. After 30 days, the highest quality result was observed at concentration 5 ppm with shoot of 4.86 cm in length, 5.20 leaves per shoot, 4.60 roots per explant, root of 4.87 cm in length and 3.07 g per explant in fresh weight. / Nano bạc có tác động tích cực lên quá trình sinh trưởng và phát triển của một số loài thực vật nuôi cấy in vitro. Trong nghiên cứu này, chồi non in vitro có chiều cao 1 cm đã cắt bỏ đỉnh được nuôi cấy trên môi trường MS có bổ sung 30 g/L đường, 15% nước dừa (v/v), 5 mg/L BA, 8 g/L agar và nano bạc ở nồng độ 1, 3, 5, 7 ppm. Sau 20 ngày nuôi cấy, mẫu cấy phát triển tốt trên môi trường bổ sung nano bạc nồng độ 1 ppm với hệ số nhân chồi 8,4 lần, hàm lượng chlorophyll tổng số đạt 2,05 mg/g, cao gấp ba lần so với mẫu đối chứng. Mẫu cấy được chuyền sang môi trường mới có thành phần tương tự và bổ sung thêm 1 mg/L than hoạt tính để khảo sát sự tạo rễ. Kết quả cho thấy mẫu cấy trên môi trường có nồng độ nano bạc 3 ppm phát triển tốt nhất với chiều cao cây 2,90 cm/mẫu; số lá 4,40/ mẫu; số rễ 7,10/ mẫu; chiều dài rễ 7,7 cm/mẫu; khối lượng tươi 1,47 g/mẫu, khối lượng khô 0,136 g/mẫu và hàm lượng chlorophyll tổng đạt 3,17 mg/g. Những cây con in vitro phát triển tốt được trồng ngoài vườn ươm. Các dung dịch nano bạc có nồng độ 5, 10, 15 ppm được dùng để phun lên cây 1 lần/tuần. Sau 30 ngày, kết quả cao nhất ghi nhận ở dung dịch có nồng độ 5 ppm với chiều cao chồi đạt 4,86 cm, 5,20 lá/chồi, 4,60 rễ/mẫu, chiều dài rễ đạt 4,87 cm và khối lượng tươi đạt 3,07 g/mẫu.

info:eu-repo/classification/ddc/363

ddc:363

info:eu-repo/classification/ddc/7

ddc:7

Aplikace nízkoteplotních sintrovacích past i vodivých inkoustů ve výrobě desek s plošnými spoji / Application of Conductive Inks and Low Temperature Sintered Pastes in PCB Production

Kolek, Andrej

January 2015

The present masters's thesis informs about the development and application of low-temperature sintering pastes in the manufacture and assembly of PCB components of the enclosing lead-free using nanoparticles of metals and their compounds. Lead-free brazing technology which s using in the present time, which has its drawbacks, however, and thus gaining other appropriate alternatives that seek to replace or further refined lead brazing. The introduction of the theoretical part inform about retrieval method of the type, composition and properties of low-temperature sintering pastes consisting of metal nanoparticles and their compounds. This section describes and explains the reaction mechanisms taking place during the sintering process. The end of the first chapter is dedicated to nanotechnology and production of nanoparticles and their compounds for the needs of the low-temperature sintering and possible related problems. Folowing section is devoted to examples of practitioners of the application and use of low-temperature sintering pastes and tests with which to assess the characteristics and quality of the related sintering conection. At the end of the thesis is a summary perspective and the use of low-temperature sintering technology nanoparticle past into the future. The experimental part is devoted to the application of conductive ink on the base of graphite for the production of 1V, 2V and 4V structures and their electroplated by the copper. There were created technological processes of 2V and 4V structures and test proposed methodologies resistance conductive theme to environmental influences. Filling pasta was tested in implementing 4V structure. There were made microsections various technological applications and their results were processed and evaluated.