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electrolysis_01 | Nano Energy 81 (2021) 105620 Available online 18 November 2020 2211-2855/© 2020 The Author(s). | [
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electrolysis_01 | This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). | [
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electrolysis_01 | Full paper | [
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electrolysis_01 | Keywords: Electrochromism Hydrogen evolution reaction Water splitting WO3 Site saturation | [
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electrolysis_01 | The solar-to-hydrogen (STH) efficiency of solar-driven water electrolysis was extracted using (Ag,Cu)InGaSe2 solar cell modules with a cell band gap varied in between 1.15 and 1.25 eV with WO3 on Ni foam-based electrolyzers and yielded up to 13% STH ef- ficiency. | [
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electrolysis_01 | The principle of PEM | [
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electrolysis_01 | Transition metal oxides such as WO3 can be promising alternatives and have previously mainly been used as photoanodic catalystst for oxygen evolution with modest solar- to-hydrogen (STH) efficiency but has recently also been highlighted as a cathodic electrocatalys that show promising stability with HER stability maintained after 2000 cycles [8]. | [
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electrolysis_01 | A typical smart win- dow, as shown in Fig. 1b, contains five layers between two transparent substrates where a transparent ion conductive layer lies at the center of the structure. | [
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electrolysis_01 | One side of the layer is in contact with a thin film of a cathodic electrochromic material. | [
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electrolysis_01 | This layer is colored by the insertion of ions and charge-balancing electrons into the film. | [
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electrolysis_01 | In current electro- chromic technology, the most common devices include thin films based on cathodically coloring WO3 and anodically coloring NiO. | [
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electrolysis_01 | The color- ation of WO3 is attributed to intervalence electron transfer between W6+ and W5+ valence states [26]. | [
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electrolysis_01 | The most accepted model for the coloration is that polarons formed by the localization of the injected electrons at W5+ sites are hopping between adjacent Wi and Wj sites when the light is absorbed [27]. | [
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electrolysis_01 | hν + W5+ i + W6+ j → W6+ i + W5+ j (4) | [
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electrolysis_01 | The electrochromic phenomenon in WO3 occurs with the intercala- tion of M+ cations such as H+, Li+, and Na+ from the electrolyte and the reaction mechanism is given as: WO3 + xM+ + xe− ↔ MxWO3 (5) | [
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electrolysis_01 | The expression for the time-dependent intercalation level is [28]. x(t) = (zedANW) − 1 ∫ t 0 dt′ I(t′) (6) where z is the valence of the intercalated ion, e is the elementary charge, d film thickness, A is the active area of the electrode, NW is the tungsten number density, and I is the current during the measurement. | [
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electrolysis_01 | Electrochromic properties are assessed by optical modulation which is the difference between the bleached (Tb) and colored transmission (TC) states; optical density is defined as OD(λ, x) = dα(λ, x)where α is the absorption coefficient at the specified optical wavelength λ and inter- calation level x; and differential coloration efficiency K(λ, x) given by [28]. | [
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electrolysis_01 | Fig. 1. Schematic picture of PEM electrolysis (a) and a window type electrochromic device (b), where M+ denotes the inserting ion. | [
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electrolysis_01 | İ. Bayrak Pehlivan et al Nano Energy 81 (2021) 105620 3 | [
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electrolysis_01 | Considering the relation of OD with total transmittance (Tt) and reflectance (Rt), the differential coloration efficiency K(λ, x) can be written as K(λ, x) = − 1 Tt(λ, x) dTt(λ, x) dq − 1 [1 − Rt(λ, x) ] dRt(λ, x) dq (8) | [
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electrolysis_01 | Therefore, there is a growing interest in multi-functional electrochromic devices, which can provide energy storage and energy production functionality together with control over light and/or heat [29,30]. | [
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electrolysis_01 | The energy need of the electrochromic devices can be supplied from the photovoltaic part and directly used for the optical modulation without any demand for external power. | [
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electrolysis_01 | The study consists of three main parts. | [
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electrolysis_01 | First, cathodic electrocatalytic properties of WO3 thin films deposited using a wide range of sputter conditions on Ni foam were investigated in the potential range of the hydrogen evolution reaction (HER) in an acidic electrolyte and compared with a well-known NiMo electrocatalyst for the overall water splitting reaction. | [
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electrolysis_01 | Second, optimum STH efficiency was investigated for electrolyzers combining films pro- duced using different sputtering conditions of the WO3 (cathode) with Ni foam (anode) and A-CIGS solar cell modules with cell band gaps varying in-between 1.15 and 1.25 eV. | [
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electrolysis_01 | In addition, electrochromic and electrocatalytic properties of WO3 films coated on indium tin oxide (ITO) substrates were investigated in a potential range relevant for the HER, where the coloration efficiency was quantified. | [
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electrolysis_01 | Finally, we discuss H+ ion intercalation and the relation to the hydrogen evaluation process and possible applications of the reported effect. | [
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electrolysis_01 | 2. Experimental | [
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electrolysis_01 | 2.1. Sample preparation | [
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electrolysis_01 | WO3 films were deposited on 1.6 mm thick Ni foam (350 g/m2 sur- face density and sheet resistance of 0.1 Ω/□) and ITO coated glass (sheet resistance of 60 Ω/□) substrates by reactive DC magnetron sputtering using a Balzers UTT 400 unit. | [
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electrolysis_01 | The target consisted of a 5 cm diameter metallic W (99.99% purity, Plasmaterials) disc. | [
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electrolysis_01 | The target to substrate distance was 13 cm, and the system was evacuated to ~8 × 10–5 Pa. | [
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electrolysis_01 | Pre-sputtering was performed for 5 min in argon plasma in order to remove surface impurities. | [
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electrolysis_01 | The film thickness determined by a Veeco Dektak 150 surface profilometry instrument was 165 ± 10 and 300 ± 25 nm for films coated on Ni foam and ITO substrates, respectively. | [
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electrolysis_01 | The A-CIGS material and subsequent solar cell modules were fabri- cated on soda-lime glass substrates cut to a 5 × 5 cm2 sample size. | [
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10
],
[
12,
12
],
[
14,
16
],
[
18,
18
],
[
20,
20
],
[
23,
25
]
]
} | [
"O",
"O",
"O",
"O",
"O",
"O",
"O",
"B-FORM",
"L-FORM",
"O",
"U-MAT",
"O",
"U-MAT",
"O",
"B-MAT",
"I-MAT",
"L-MAT",
"O",
"U-MAT",
"O",
"U-MAT",
"O",
"O",
"B-MAT",
"I-MAT",
"L-MAT",
"O"
] | {
"ne_id_gov": [
112429,
112411,
112402,
112393,
112384,
112375
],
"ne_id_dep": [
112375,
112375,
112375,
112375,
112375,
112420
],
"label": [
"hasForm",
"hasForm",
"hasForm",
"hasForm",
"hasForm",
"hasForm"
]
} | electrolysis_01 | train3 | electrolysis |
electrolysis_01 | The Mo layer was fabricated by DC magnetron sputtering to a thickness of 300–400 nm. | [
"The",
"Mo",
"layer",
"was",
"fabricated",
"by",
"DC",
"magnetron",
"sputtering",
"to",
"a",
"thickness",
"of",
"300",
"–",
"400",
"nm",
"."
] | 14,585 | 14,669 | ['Experiment', 'Exp_Preparation'] | O | {
"text": [
"Mo",
"layer",
"300–400 nm",
"300–400",
"300",
"400",
"nm"
],
"id": [
112438,
112447,
112456,
112465,
112474,
112483,
112492
],
"value": [
"MAT",
"FORM",
"VALUE",
"RANGE",
"NUM",
"NUM",
"UNIT"
],
"begin": [
"4",
"7",
"73",
"73",
"73",
"77",
"81"
],
"end": [
"6",
"12",
"83",
"80",
"76",
"80",
"83"
],
"tokenIndices": [
[
1,
1
],
[
2,
2
],
[
13,
16
],
[
13,
15
],
[
13,
13
],
[
15,
15
],
[
16,
16
]
]
} | [
"O",
"U-MAT",
"U-FORM",
"O",
"O",
"O",
"O",
"O",
"O",
"O",
"O",
"O",
"O",
"B-VALUE+B-RANGE+U-NUM",
"I-VALUE+I-RANGE",
"I-VALUE+L-RANGE+U-NUM",
"L-VALUE+U-UNIT",
"O"
] | {
"ne_id_gov": [
112438
],
"ne_id_dep": [
112447
],
"label": [
"hasForm"
]
} | electrolysis_01 | train3 | electrolysis |
Dataset Card for MuLMS
Example annotation in the Multi-Layer Materials Science Corpus (image source: MuLMS: A Multi-Layer Annotated Text Corpus for Information Extraction in the Materials Science Domain)
Dataset Description
The Multi-Layer Materials Science corpus (MuLMS) consists of 50 documents (licensed CC BY) from the materials science domain, spanning across the following 7 subareas: "Electrolysis", "Graphene", "Polymer Electrolyte Fuel Cell (PEMFC)", "Solid Oxide Fuel Cell (SOFC)", "Polymers", "Semiconductors" and "Steel". It was exhaustively annotated by domain experts. There are annotations on sentence-level and token-level for the following NLP tasks:
- Measurement Frames: Measurement annotations are treated in a frame-like fashion, using the span type MEASUREMENT to mark the triggers (e.g., was measured, is plotted) that introduce the Measurement frame to the discourse. Deciding whether a sentence contains a measurement trigger is treated as a sentence-level task, determining the span that triggers the measurement frame is treated as named entity recognition.
- Named Entities: There are 12 token-level named entities (+ Measurement trigger) available in MuLMS. Named entities can span across multiple tokens.
- Relations: MuLMS provides relations between pairs of entities. There are two types of relations: measurement-related relations and further relations. The first type always starts at Measurement trigger spans, the scond type does not start at a specific Measurement annotation.
- Argumentative Zones: Each sentence in MuLMS is assigned a rhetorical function in the discourse (e.g., Background or Experiment_Preparation). There are 12 argumentative zones in MuLMS, which leads to a sentence-level classification task.
You can find all experiment code files and further information in the MuLMS-AZ Repo and MuLMS Repo. For dataset statistics, please refer to both papers listed below. There you can also find detailed explanation of all parts of MuLMS in very detail.
- Curated by: Bosch Center for AI and Bosch Research
- Funded by: Robert Bosch GmbH
- Language(s) (NLP): English
- License: CC BY-SA 4.0
Dataset Details
MuLMS provides all annotated files in UIMA CAS XMI format that can be used with annotation tools that can read these files such as INCEpTION.
Dataset Sources
- Repository: https://github.com/boschresearch/mulms-az-codi2023, https://github.com/boschresearch/mulms-wiesp2023
- Paper: https://aclanthology.org/2023.codi-1.1/, https://arxiv.org/abs/2310.15569
Uses
Direct Use
This dataset aims at information extraction from materials science documents. It enables the training of (neural) classifiers that can be used for downstream tasks such as NER and relation extraction. Please refer to both repos linked above for training BERT-like models on all NLP tasks provided in MuLMS.
Dataset Structure
MuLMS offers two configs: MuLMS_Corpus, which loads the entire MuLMS dataset, and NER_Dependecies, which loads only Named Entities in CONLL format in order to train models in the NER_as_dependency_parsing setting.
MuLMS is divided into three split: train, validation, and test. Furthermore, train is divided into five sub-splits, namely tune1,...,tune5. This allows for model training on four splits, early stopping on the fivth and remaining split, model picking on validation and evaluation only once on test. HuggingFace datasets do not support these sub-splits, hence they must be loaded as train and post-processed and filtered afterward in a custom dataset loader.
Dataset Config MuLMS_Corpus
doc_id
: ID of the source document that can be used to lookup the metadata of the paper in MuLMS_Corpus_Metadata.csv.sentence
: Each instance in the dataset corresponds to one sentence extracted from scientic papers. These sentences are listed in this field.tokens
: Pre-tokenized sentences. Each instance is a list of tokens.begin_offset
: Offset of the beginning of each sentence within the full text of the document.end_offset
: Offset of the end of each sentence within the full text of the document.AZ_labels
: The argumentative zone (= rhetorical function) of each sentence in the discourse of a materials science publication.Measurement_label
: Labels each sentence whether it contains a measurement description, i.e., measurement frame evoking trigger word, or not.NER_labels
: Contains lists with named entities (NEs) per instance. Every named entity uses one of n indices in these lists, i.e., every 0-th element belong to each other, ...text
: List of tokens that are contained in the current sentence instance.id
: Unique ID for each named entityvalue
: The named entity classbegin
: Character offsets of the begin tokens of each NEend
: Character offsets of the end tokens of each NEtokenIndices
: Token index in the list of tokens
NER_labels_BILOU
: BILOU tag sequence per token in the sentence (B = begin, I = inside, L = last, O = none, U = unit).relations
: Lists of relations between pair-wise entities. As with the named entities, each relation corresponds to the same index in all three lists (ne_id_gov, ne_id_dep, label)ne_id_gov
: List of NE entity IDs that act as head of the relationne_id_dep
: List of NE entity IDs that are the tail of the relationlabel
: Relation label between both entities
docFileName
: Name of the source document in the corpusdata_split
: Indicates the split which a document belongs to (tune1/2/3/4/5, dev, test)category
: One of 7 materials science sub-domains in MuLMS (SOFC, graphene, electrolysis, PEMFC, )
Dataset Config NER_Dependencies
Each instance in this config refers to one token and carries a copy of the entire sentence, i.e., for n tokens in a sentence, the text of the sentence is given n times.
index
: Unique instance ID for each token.ID
: Sentence ID. As opposed to the other config, the sentences here are not sorted by document and provided in their full form for every token they belong to.Sentence
: Sentence stringToken_ID
: Unique ID for each token within each sentence. ID is resetted for each new sentence.Token
: Token stringNE_Dependencies
: The named entity tag of form k:LABEL where k refers to the ID of the begin token and LABEL to the named entity. The entity ends at the token holding this- label.
data_split
: Indicates the split which a document belongs to (tune1/2/3/4/5, dev, test)
Labels
For the different layers, the following labels are available:
- Measurement Frames:
Measurement
Qual_Measurement
- Named Entities:
MAT
NUM
VALUE
UNIT
PROPERTY
FORM
MEASUREMENT
(measurement frame-evoking trigger)CITE
SAMPLE
TECHNIQUE
DEV
RANGE
INSTRUMENT
- Relations:
hasForm
measuresProperty
usedAs
propertyValue
conditionProperty
conditionSample
conditionPropertyValue
usesTechnique
measuresPropertyValue
usedTogether
conditionEnv
usedIn
conditionInstrument
takenFrom
dopedBy
- Argumentative Zones:
Motivation
Background
PriorWork
Experiment
Preparation
Characterization
Explanation
Results
Conclusion
Heading
Caption
Metadata
Dataset Creation
Curation Rationale
Keeping track of all relevant recent publications and experimental results for a research area is a challenging task. MuLMS addresses this problem by providing a large set of annotated documents that allow for training models that can be used for automated information extraction and answering search queries in materials science documents.
Source Data
You can find all the details for every document in this corpus in MuLMS_Corpus_Metadata.csv.
Who are the source data producers?
You can find all the authors for every document in this corpus in MuLMS_Corpus_Metadata.csv.
Annotation process
The annotation process included guideline design in dedicated discussion sessions. Afterward, the text files were annotated using INCEpTION.
Who are the annotators?
The annotators worked collaboratively to annotate the dataset in the best possible way. All people in this project either have background in materials science or computer science. This synergy enables to incorporate both views, the materials scientist view that has a deep knowledge about the topics themselves as well as the CS view that always looks at processing text data automatically in a structured fashion.
Personal and Sensitive Information
This dataset does not contain any personal, sensitive or private data. MuLMS builds upon publicly available scientific publications and all authors are credited accordingly.
Citation
If you use our software or dataset in your scientific work, please cite both papers:
BibTeX:
@misc{schrader2023mulms,
title={MuLMS: A Multi-Layer Annotated Text Corpus for Information Extraction in the Materials Science Domain},
author={Timo Pierre Schrader and Matteo Finco and Stefan Grünewald and Felix Hildebrand and Annemarie Friedrich},
year={2023},
eprint={2310.15569},
archivePrefix={arXiv},
primaryClass={cs.CL}
}
@inproceedings{schrader-etal-2023-mulms,
title = "{M}u{LMS}-{AZ}: An Argumentative Zoning Dataset for the Materials Science Domain",
author = {Schrader, Timo and
B{\"u}rkle, Teresa and
Henning, Sophie and
Tan, Sherry and
Finco, Matteo and
Gr{\"u}newald, Stefan and
Indrikova, Maira and
Hildebrand, Felix and
Friedrich, Annemarie},
booktitle = "Proceedings of the 4th Workshop on Computational Approaches to Discourse (CODI 2023)",
month = jul,
year = "2023",
address = "Toronto, Canada",
publisher = "Association for Computational Linguistics",
url = "https://aclanthology.org/2023.codi-1.1",
doi = "10.18653/v1/2023.codi-1.1",
pages = "1--15",
}
Changes
Changes to the source code from the original repo are listed in the CHANGELOG file.
Copyright
Experiment resources related to the MuLMS corpus.
Copyright (c) 2023 Robert Bosch GmbH
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published
by the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <https://www.gnu.org/licenses/>.
License
This software is open-sourced under the AGPL-3.0 license. See the LICENSE_CODE file for details. The MuLMS corpus is released under the CC BY-SA 4.0 license. See the LICENSE_CORPUS file for details.
Dataset Card Authors
- Timo Pierre Schrader (Bosch Center for AI, University of Augsburg)
- Matteo Finco (Bosch Research)
- Stefan Grünewald (Bosch Center for AI, University of Stuttgart)
- Felix Hildebrand (Bosch Research)
- Annemarie Friedrich (University of Augsburg)
Dataset Card Contact
For all questions, please contact Timo Schrader.
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