Identifying the “Do’s” and “Don’ts” for a Trust-Building CCU
Product Label
Anika Linzenich, Katrin Arning and Martina Ziefle
Human-Computer Interaction Center, RWTH Aachen University, Campus-Boulevard 57, 52074 Aachen, Germany
Keywords: Carbon Capture and Utilization (CCU), Social Acceptance, Trust, Product Labeling, Purchase Intention and
User Diversity.
Abstract: Carbon Capture and Utilization (CCU) is a technological approach to reduce CO
2
emissions and fossil
resource depletion by using CO
2
, e.g., from power plants, as feedstock for the manufacturing of products.
Since CCU products are novel and have a low public awareness, a specific product label might be helpful to
inform the public about and build trust in CCU products. However, product labels should not only target at
the merchantability of novel products but should integrate users’ information needs and their requirements
towards trust and reliability of the product and the production process. In an online survey with 147 German
laypeople, requirements for a trusted CCU label were investigated to derive recommendations for a successful,
trust-building label and certification process design. Results revealed a positive trust in the CCU label. CCU
label trust tended to be higher in persons with higher trust in other people and product labels in general.
Purchase intentions for labeled CCU products were increased by a higher CCU label trust and environmentally
aware behaviors and decreased by a higher technical self-efficacy. Trusted sources informing about the label
were identified as focal point for increasing label trust at this early stage of market entering for CCU products.
1 INTRODUCTION
To address the global challenge of climate change,
various measures are taken worldwide to reduce
greenhouse gas emissions and fossil resource use
(UNEP, 2017). One technological approach to re-use
CO
2
emissions from industrial sources, e.g., power
plants, and decrease fossil resource depletion is
carbon capture and utilization (CCU). There is a large
variety of carbon capture and utilization options, such
as the production of urea, fuels, or plastic products
(Zimmermann and Schomäcker, 2017). A main
advantage of CCU is that the consumption of fossil
resources in plastic product manufacturing can be
reduced because CO
2
is used as a substitute for fossil
carbon sources (Von der Assen and Bardow, 2014).
A decisive factor for the successful market
introduction of CO
2
-derived products will be their
favorable acceptance by the public. This includes not
only a passive tolerance of the CCU technology
infrastructure but also an active willingness to buy
and use CCU products (Jones et al., 2017). To raise
public awareness of CCU and enable laypeople an
informed decision whether or not they want to buy a
CCU product instead of a conventionally produced
alternative, a CCU product label could be used to
mark CCU products and highlight the differences to
conventional manufacturing.
Recently, there have been efforts to develop seals
of approval for products (e.g., Olfe-Kräutlein et al.,
2016). However, these single efforts are mainly
limited to a public discourse of the topic without
substantial empirical base to validate the
appropriateness of such seals. It is mandatory for a
successful and accepted label to include a theoretical
knowledge but also an empirical validation of how
label trust is constituted and how an accepted label
certification process looks like.
Instead of merely focusing on the merchantability
of a product, it is reasonable to understand in a first
step, which information and communication needs
are prevailing at all and how and why the
characteristics of novel products are perceived as
risky or beneficial by the consumers. Thus, prior to
investigating the specific design of a CCU label (how
to display which information, preferred color scheme
and design elements), the framework conditions for a
trusted label design and certification process need to
be determined. Therefore, the present study aims at
identifying requirements for such a trust-building
CCU product label. Using data from an online survey,
the level of trust in a CCU label and the influence of
58
Linzenich, A., Arning, K. and Ziefle, M.
Identifying the “Do’s” and “Don’ts” for a Trust-Building CCU Product Label.
DOI: 10.5220/0007690100580069
In Proceedings of the 8th International Conference on Smart Cities and Green ICT Systems (SMARTGREENS 2019), pages 58-69
ISBN: 978-989-758-373-5
Copyright
c
2019 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
CCU label trust on the purchase intention for labeled
CCU products are investigated. Moreover, it is
examined which user- and label-related factors
impact CCU label trust and the purchase intention for
labeled CCU products.
The paper is structured as follows: In Section 1.1
and 1.2, an overview is given on the state of research
on CCU product acceptance and on the importance of
trust for a successful product label. Subsequently, the
study’s methodological approach, the sample, and the
procedure of data analysis are presented (Section 2).
In Section 3, the study findings are described. Finally,
results are discussed and recommendations for a trust-
building CCU label are derived (Section 4).
1.1 Social Acceptance and Awareness
of CCU Products
CCU products are innovative products which require
a favorable social acceptance for their successful
market adoption (Jones et al., 2017). Although
previous studies have revealed a positive general
acceptance of the CCU technology and products,
awareness of CCU was found to be low (e.g., Arning
et al., 2019; Offermann-van Heek et al., 2018). One
way to increase the public awareness of CCU
products are tailored information concepts, which
have to be timely integrated to be effective (Bögel et
al., 2018). Especially as CCU products do not
observably differ from conventional products (only
the manufacturing process distinguishes them, Von
der Assen and Bardow, 2014), a possible approach to
both raise the public awareness of CCU products and
foster trust in CCU industry and products is an
adequate product labeling. So far, studies on CCU
acceptance have mainly focused on benefit and risk
perceptions of the CCU technology and products and
on trust and distrust in stakeholders involved in the
implementation of CCU technologies, such as CCU
industry, government, and research institutions (e.g.,
Arning et al., 2019; Offermann-van Heek et al.,
2018). Although past research has identified the need
for raising public awareness of and clearly labeling
CCU products (Offermann-van Heek et al., 2018;
Olfe-Kräutlein et al., 2016; Van Heek et al., 2017), no
study has yet looked into laypeople’s requirements
for a successful and informative CCU product label.
1.2 The Importance of Trust in
Product Label Design
Missing trust in stakeholders has been revealed as
crucial barrier to the successful introduction of energy
technologies and innovative products (Huijts et al.,
2012). Trust is a multidimensional concept with no
uniform definition across research disciplines. The
trust framework of McKnight and Chervany (2001),
originally explaining trust in the ICT- and e-
commerce context, differentiates between trust as
disposition, belief, intention, and behavior: While
trust disposition refers to the general trust a person
has in other people (i.e., the willingness to depend on
general others), trusting beliefs refer to the trustor’s
(= the person who trusts) evaluations of the trustee’s
characteristics (trustee = the person or institution who
is to be trusted). A trustee is evaluated as trustworthy
to fulfill a task if this person is believed to possess the
ability or power to fulfill the task (competence), to be
willing to act in the trustor’s interest (benevolence),
to be truthful and to keep promises (integrity), and to
act consistently (predictability). On the basis of one’s
trusting beliefs, trusting intentions are developed,
which then lead to trust-related behavior. In line with
other previous research (e.g., Van de Walle and Six,
2014), distrust is distinguished from trust as the
opposite, but separate concept: Hence, trust and
distrust can exist to a differing extent at the same
time, depending on the specific evaluation of a
situation.
Past research on credibility of information
sources in the CCU context revealed that trust in CCU
industry and governmental institutions was on a
medium level and received lower trust ratings
compared to research institutions and NGOs
(Offermann-van Heek et al., 2018). Further,
consumers request to be informed whether a product
was manufactured using the CCU or conventional
technology, even if the CCU alternative does not
noticeably differ from the conventional products, and
withholding this information might thus evoke
distrust (Offermann-van Heek et al., 2018; Van Heek
et al., 2017). If tailored to laypeople’s requirements,
a CCU product label could act as a trust-building
measure by transparently informing about CCU
products and their characteristic features.
One approach to make production-related
characteristics “visible” is the eco-label. Eco-labels
inform buyers about a product’s environmental
qualities (Atkinson and Rosenthal, 2014). It was
found that eco-labels can positively impact consumer
purchase decisions for labeled products (e.g., Feucht
and Zander, 2018) and they are the most preferred
source for environmental information about a product
(European Commission, 2013).
As the purpose of a product label is to convey the
most essential information at a glance within a very
limited space, it needs to be carefully designed.
Integrating laypeople’s requirements and wishes in
Identifying the “Do’s” and “Don’ts” for a Trust-Building CCU Product Label
59
the development of product labels is crucial to make
sure the label is comprehensible, unambiguous, and
regarded as trustworthy. Otherwise, a newly
introduced product label might confuse consumers,
get lost in the shuffle of existing labels, or create
distrust (e.g., Moon et al., 2017). Studies on eco-label
acceptance identified argument specificity (i.e.,
detailed information about the environmental
qualities of the product) and additional information
on the label (e.g., about the label meaning and
certification conditions and regulations) as
requirements for an accepted and trusted product
label (Atkinson and Rosenthal, 2014; Emberger-
Klein and Menrad, 2018). Especially for carbon
labels it was difficult for laypeople to comprehend the
presented label information and to put it into
perspective (Upham et al., 2011). In a study by the
European Commission (2013), most respondents
believed that existing eco-labels provided not enough
and/or not sufficiently clear environmental
information about labeled products. Also, unknown
labels were found to elicit low trust (e.g., Sirieix et
al., 2013).
Beyond the specific label design and displayed
information, the process of label certification is a
factor that also needs to be carefully considered.
Particularly when product manufacturers or
supermarket brands award a label themselves,
consumers have been suspicious (particularly in
Germany), whereas governmental certification
evoked higher trust and was preferred to producers’
claims (Atkinson and Rosenthal, 2014; European
Commission, 2013; Sirieix et al., 2013). In a previous
study on CCU acceptance, where a seal of approval
for CCU products was assessed as important for trust
in the CCU industry, interviewees mentioned the
requirement of label source: A certification by
independent sources such as governmental
institutions or specific institutes was preferred
(Offermann-van Heek et al., 2018).
Furthermore, it is important for a successful
implementation of a product label to identify
consumer groups which are responsive to the label
and which are reluctant in trusting the label. Yet, the
impact of user factors (person-related characteristics
such as sociodemographic factors and general
attitudes) on attitudes towards eco-labels is not
sufficiently clear (Waechter et al., 2015). Individual
factors associated with attention to and preference for
eco-labels were, for example, young age, higher
education, pro-environmental attitude, knowledge
about eco-labels, and personal innovativeness related
to eco-labels (e.g., Brécard et al., 2012; Thøgersen,
2000; Thøgersen et al., 2010).
Results on the influence of gender on eco-label
attitudes were mixed: Whereas Brécard et al. (2012)
found that men are more willing to adopt eco-labels,
Sønderskov and Daugbjerg (2011) revealed a higher
eco-label trust for women. Other influence factors for
eco-label trust identified by Sønderskov and
Daugbjerg (2011) were a younger age, a higher
environmental awareness, and a higher general trust
in other people and institutions.
1.3 Research Questions
The present research is the first systematic attempt to
investigate laypeople’s requirements for a trust-
building product label for CO
2
-derived products. In
order to explore trust in a label for CCU products and
to identify requirements for fostering label trust, the
following questions were examined:
RQ1. Do laypeople trust in a CCU label?
RQ2. Does trust in the CCU label affect the
willingness to buy CCU products?
RQ3. Is trust in the CCU label affected by user
characteristics?
RQ4. Which factors related to label and certification
process design build trust in CCU product
labels?
2 METHODOLOGY
In the following section, the structure of the online
questionnaire and the survey sample are described.
2.1 Questionnaire Structure
The questionnaire consisted of three parts. An
overview of questionnaire items can be found in the
Appendix (Table A.1).
In the first part, demographic data (age, gender,
education) and attitudinal characteristics
(environmentally aware behavior, technical self-
efficacy, trust disposition, and self-reported
knowledge about CCU) were assessed. Respondents’
environmentally aware behavior was measured by six
items (Cronbach’s alpha = 0.78) based on a study
conducted for the European Commission (2008) and
on Wippermann et al., (2008). Technical self-
efficacy, i.e., one’s general attitude towards
technology, was assessed by four items (Cronbach’
alpha = 0.90) from Beier (1999). Trust disposition
was measured using the 12-item-scale from
McKnight et al., (2002) (Cronbach’s alpha = 0.84).
Self-reported knowledge about CCU was covered by
SMARTGREENS 2019 - 8th International Conference on Smart Cities and Green ICT Systems
60
four items (Cronbach’s alpha = 0.92) specifically
developed for the research topic: Respondents were
asked to evaluate their familiarity with different
aspects of carbon utilization (storage, utilization,
product spectrum), partly based on the scale used by
Arning et al., (2019). The scale was validated in pre-
studies.
The second part captured participants’ perception
of product labels in general and the CCU label in
particular. General trust in product labels was
measured using the item “I totally trust in product
labels.” To assess trust in the CCU label, a scale was
developed that covered essential trust dimensions
identified in McKnight and Chervany (2001) and
specified them for the topic of CCU labels. The scale
consisted of five items measuring trusting beliefs
(benevolence and integrity) related to the label
certification and the intention to trust a CCU product
label (Cronbach’s alpha = 0.81). Items on CCU label
trust were developed based on an interview pre-study
and previous research on label trust (Moussa and
Touzani, 2008) and had been validated in pre-studies.
Also, the purchase intention for labeled CCU
products was measured by five items related to
actively searching for labeled CCU products,
preferring labeled CCU products to conventional
products, and the willingness to buy novel and
unfamiliar products marked by the CCU label
(Cronbach’s alpha = 0.87).
In the third part of the questionnaire, respondents
had to evaluate conditionals for trust and distrust in a
CCU product label (see Table A.2, Appendix). They
were asked which factors (related to the certification
process, the label design, and the provided
information) would foster their trust or distrust in a
CCU product label. The 14 trust- and 15 distrust
conditional items were derived from interviews with
laypeople and experts conducted prior to the study
and from the current state of research on eco-label
trust (see Section 1.2). Trust and distrust conditionals
were assessed separately since past research
identified trust and distrust to be separate concepts.
All questionnaire items were answered on six-
point Likert scales ranging from “do not agree at
all”(1) to “fully agree”(6). Accordingly, mean values
> 3.5 signify approval to and values < 3.5 indicate
rejection of a statement.
2.2 Sample
Data was collected online in fall 2017. The survey
link was disseminated by e-mail, discussion forums,
and social media. 186 respondents participated in the
study. They were not financially rewarded but
volunteered to participate. Excluding incompletes
and speeders (response time < 10 min), 147 data sets
remained for the analysis (response rate: 79.0%).
Participants’ age ranged between 17 and 70 years
(M = 33.3 years, SD = 13.2). 49.0% were female and
51.0% were male. 56.5% had a university degree or
higher, 27.9% a university entrance certificate, and
14.3% reported a secondary school diploma or lower
secondary school leaving certificate as highest
educational qualification, whereas 1.4% stated to
have another type of qualification.
The sample reported environmentally aware
consumption behaviors (M = 4.03, SD = 0.86), a
positive technical self-efficacy (M = 4.38, SD = 1.19)
and a positive trust disposition, i.e., general trust in
other people (M = 3.80, SD = 0.60). Self-assessed
knowledge about the CCU technology and products
was low (M = 2.27, SD = 1.17): 84.4% felt rather
uninformed (M < 3.5), whereas 15.6% felt (rather)
knowledgeable about the topic of CCU (M ≥ 3.5).
2.3 Data Analysis
Mean values for all constructs with multiple item-
measurement were computed. Data was analyzed
using descriptive and inference statistics. To compare
mean values for label trust ratings (related to the CCU
label and product labels in general) and purchase
intention for labeled CCU products, t-Tests for paired
samples were used. If multiple t-Tests were
conducted, the adjusted value for statistical
significance was considered. A principal component
analysis was conducted to explore the factor structure
in the questionnaire and to identify (dis)trust factors
in the CCU label context. Finally, the influence of
user factors and (dis)trust factors on CCU label
perceptions was investigated using regression
analyses. Regression diagnostics were carried out to
determine if model analysis assumptions were
fulfilled. Multicollinearity (i.e., biasing effects due to
intercorrelating factors, Hair, 2011) could be ruled
out because VIF values were below 10 and tolerance
values above 0.2 for all predictors used in the model.
3 RESULTS
First, results for trust in the CCU label and purchase
intention for labeled CCU products are reported.
Then, the effect of user factors on CCU label trust and
intention to buy CCU products is examined. In a last
step, the impact of label- and certification process-
related factors on CCU label trust is investigated.
Identifying the “Do’s” and “Don’ts” for a Trust-Building CCU Product Label
61
3.1 CCU Label Trust and Purchase
Intention for CCU Products (RQ1)
As Figure 1 shows, general trust in product labels was
rather low (M = 2.96, SD = 1.21). In contrast, trust in
a specific label for CCU products was positive and
significantly higher (M = 4.04, SD = 0.74;
t(146) = 12.77, p < 0.001). However, compared to
CCU label trust, the purchase intention for labeled
CCU products was neutral (M = 3.47, SD = 0.86) and
significantly lower (t(146) = -8.75, p < 0.001).
Figure 1: Ratings of general trust in product labels, trust in
the CCU product label, and purchase intention for labeled
CCU products (n = 147).
Examining CCU trust in more detail (see Figure 2), it
can be seen that both trusting beliefs (related to
benevolence and integrity) and trusting intentions
were rather positive.
Figure 2: Ratings of trusting beliefs and trusting intention
related to the CCU product label (n = 147).
In order to analyze whether trusting intention
significantly differed from trusting beliefs, mean
values were calculated over the three belief- and two
intention-items. Results showed that trusting beliefs
(M = 4.17, SD = 0.77) were on average significantly
more positive than the trusting intention related to the
CCU product label (M = 3.85, SD = 0.86;
t(146) = 6.10, p < 0.001).
3.2 Impact of User Factors on CCU
Label Trust and Purchase Intention
(RQ2 and 3)
To investigate how trust in the CCU label and
purchase intention for CCU products are developed,
it is also important to consider which person-related
factors (user factors) influence CCU label trust and
the intention to buy labeled CCU products. Therefore,
a stepwise regression analysis was run to examine
whether trust in a CCU label is impacted by user
factors (i.e., whether some groups are more trusting
of CCU product labels than other groups of persons).
The measured demographic and attitudinal variables
(age, gender, education, environmentally aware
behavior, technical self-efficacy, trust disposition,
self-assessed knowledge about CCU, and general
trust in product labels) were entered as independent
variables and trust in the CCU label as dependent
variable.
Results are displayed in Figure 3. It was found
that age, trust disposition, and general trust in product
labels significantly affected trust in the CCU label
and explained together 35.4% of variance in CCU
label trust (F(3,143) = 27.64, p < 0.001). All other
factors were excluded from the regression model,
meaning they did not significantly impact trust.
General trust in product labels was identified as
strongest driver of CCU label trust (𝛽 = .48,
p < 0.001), followed by trust disposition (𝛽 = .25,
p < 0.001): A higher trust in general others and in
product labels in general increased specific trust in
the CCU label. Moreover, a younger age was linked
to a higher trust in the CCU label (𝛽 = -.17, p < 0.05).
In a next step, influence factors for the intention
to purchase labeled CCU products were analyzed
using stepwise regression. Alongside demographics
and general attitudes, also the specific trust in the
CCU label was included as predictor and the purchase
intention was entered as criterion. The resulting
regression model (Figure 3) explained 43.8% of
variance in the intention to buy labeled CCU products
(F(3,143) = 38.86, p < 0.001). The sole variables
contributing significantly to purchase intention were
“trust in the CCU label” (𝛽 = .49, p < 0.001),
environmental awareness (𝛽 = .39, p < 0.001), and
technical self-efficacy (𝛽 = -.22, p < 0.001).
2.96
4.04
3.47
1
2
3
4
5
6
General trust
in product labels
Trust in CCU
product label
Purchase intention
for labeled CCU
products
Average trust rating ( min = 1, max = 6)
midpoint
3.71
3.98
4.04
4.16
4.33
1 2 3 4 5 6
Intention to use labeled CCU
products without concerns
Intention to trust
the CCU product label
Integrity - Information
displayed on the label is true
Benevolence - Good intentions
respecting consumers interests
Benevolence - Label shall
inform consumers
Trusting intention
Trusting beliefs
Average rating (min = 1, max = 6)
midpoint
SMARTGREENS 2019 - 8th International Conference on Smart Cities and Green ICT Systems
62
Figure 3: Regression models for the impact of user factors on CCU label trust and purchase intention for labeled CCU products
(n = 147).
Whereas a higher CCU label trust and a more
environmentally aware behavior increased the
intention to buy labeled CCU products, a more
positive general attitude towards technology tended
to lower the purchase intention.
3.3 Trust and Distrust Factors
Impacting CCU Label Trust (RQ4)
So far, trust and purchase intentions for a CCU label
have been examined and it was analyzed to which
extent they are influenced by user factors. Still, it is
unclear if there are possibilities to increase (or barriers
which lower) the trustworthiness of the CCU label. To
identify trust- and distrust-building factors for CCU
labels, a principal factor analysis (PCA) was conducted
for the 29 (dis-)trust items to determine the factorial
construct structure (see Table A.2, Appendix).
Selection of factors retained in analysis was based
on two conditions: 1) visual diagnostics of the scree
plot (using the point of inflexion in the scree plot as
cut-off point), 2) Kaiser’s criterion (checking for
eigenvalues of factors > 1) (Field, 2009). Due to the
small sample size, only items with a factor loading >
.512 were retained (which is the cut-off for a sample
with n = 100, Field, 2009). Quality criteria for PCA
proved that the data matrix was suitable (Bartlett’s test
of sphericity p < 0.001) and that there was a high level
of sampling adequacy (KMO = .775) (Hair, 2011). The
obtained factorial structure (Table A.2, Appendix)
revealed five (dis)trust factors:
1. Unknown and private certifying organization
(distrust factor, Cronbach’s alpha = 0.82)
2. Transparent and independent certification
process (trust factor, Cronbach’s alpha = 0.76)
3. Information sources (trust factor, Cronbach’s
alpha = 0.76)
4. Provided label information (trust / distrust factor,
Cronbach’s alpha = 0.66)
5. Unusual label design (distrust factor, Cronbach’s
alpha = 0.80)
The five extracted dimensions explained 46.5% of the
total variance.
The first factor “unknown and private certifying
organization” was related to a private, dependent
organization awarding the label, which was unknown
to respondents and about which no information was
available (“unknown auditor”).
The second factor “transparent and independent
certification process” was comprised of transparent
awarding criteria and regulations for product controls,
transparent information about the CO
2
footprint of the
CCU product, and an independent certifying
organization that awards the label.
The third factor was related to “trusted sources”
informing respondents about the label (meaning how
respondents got in touch with the label, e.g., via
media coverage or friends).
The fourth factor referred to “information,” i.e.,
both the information provided on the label (extent of
information, reference to additional information) but
also available information about the certifying
organization were summarized.
Identifying the “Do’s” and “Don’ts” for a Trust-Building CCU Product Label
63
The fifth factor concerned “label design”
(unusual label shape and design).
Most factors were exclusively trust or distrust
factors (they included only trust or distrust
conditionals). The only factor which consisted of both
trust and distrust conditionals was “provided label
information.”
In a second step, mean values were calculated for
the five obtained (dis)trust factors to see which of
these factors participants evaluated as most relevant
for their trust or distrust in the CCU product label
(Figure 4).
Figure 4 shows that on a descriptive level all
factors were assessed as (rather) relevant for trust or
distrust in the CCU label except for the “unusual
label design,” which was rated as rather unimportant.
All differences in relevance ratings for the five factor
levels were statistically significant on a level of
p < 0.001 (except for the difference between
“unknown and private certifying organization” and
“provided label information” with p < 0.01).
Figure 4: Ratings of relevance of (dis)trust factors for
increasing (dis)trust in the CCU product label (n = 147).
To test whether the (dis)trust factors had a
statistically significant impact on CCU label trust and
purchase intention, stepwise regression analyses were
conducted using the five (dis)trust factors as input
factors and CCU label trust and purchase intention for
labeled CCU products as dependent variables.
The regression models (Figure 5) revealed that
both CCU label trust and intention to buy labeled
CCU products were affected by “information
sources” as strongest driver and purchase intention
for CCU products additionally by a “transparent and
independent certification process,” whereas the other
(dis)trust factors had no significant impact and were
excluded from the models. The “information
sources” factor explained 24.4% of variance in CCU
label trust (F(1,145) = 48.08, p < 0.001). With 16.1%,
“information sources” in combination with
“transparent, independent certification” explained a
comparably lower amount of variance in purchase
intention (F(2,144) = 15.01, p < 0.001).
Figure 5: Regression models for the impact of information
sources and transparent, independent certification on CCU
label trust and purchase intention (n = 147).
Given the relevance of information sources for
both CCU label trust and purchase intention, it should
be examined which sources of information are most
appropriate for fostering label trust. Mean values for
trust conditionals related to information sources are
displayed in Figure 6. As shown, respondents
evaluated “media” and “friends and acquaintances”
most positively. On the other hand, “political
information sources” and “famous label
ambassadors” were rather not seen as relevant to
increase one’s trust in the CCU label. All differences
between information sources were statistically
significant with p < 0.001 (except for the difference
between “media” and “friends and acquaintances”
with p < 0.01).
Figure 6: Ratings of relevance of information sources for
increasing trust in the CCU product label (n = 147).
4 DISCUSSION AND
CONCLUSION
4.1 Perception of and Trust in Labels
The present study investigated requirements for a trust-
SMARTGREENS 2019 - 8th International Conference on Smart Cities and Green ICT Systems
64
building CCU label to raise public awareness of CCU
products and enable consumers an informed decision
whether they want to buy a CCU alternative instead of
a conventional product. Results revealed a positive
trust in the CCU label, but the purchase intention for
labeled CCU products was neutral.
Apart from identified trust levels, the present study
also allowed insights into the factorial structure of the
(dis)trust construct. (Dis)trust factors for CCU labels
were based on the dimensions “unknown and private
certifying organization,” “transparent and
independent certification process,” “sources
informing about the label,” “provided label
information,” and “unusual label design.”
Interestingly, the (dis)trust factors had a lower effect
on CCU label trust and purchase intention than user
factors. On a descriptive level, respondents evaluated
certifying organization, certification process and
monitoring, label information, and sources informing
about the CCU label as (rather) relevant for fostering
trust in the CCU label. However, it was revealed that
only the information sources disseminating
information about and familiarizing laypeople with the
CCU label did significantly impact both CCU label
trust and intention to buy products carrying the CCU
label. The purchase intention for labeled CCU products
was furthermore increased by a transparent and
independent certification process. This might be due to
the (currently) early phase of market entering of CCU
products. In the current study, respondents’ awareness
of the CCU technology and CCU products was very
low, which is in line with results from other recent
research (e.g., Offermann-van Heek et al., 2018). So,
in this early implementation stage characterized by low
public awareness and product availability, the first
spread of information (i.e., how the public comes into
touch with CCU products) is crucial. Because CCU
products and the corresponding product label are
unfamiliar to them and they cannot rely on personal
experience, laypeople might need assurance by a well-
known and trusted information source to develop trust
in a label for novel, innovative products.
The present study identified media coverage and
talks with friends and acquaintances to be the most
preferred information sources for familiarizing
respondents with the CCU product label, whereas
political actors and famous label ambassadors were
rather not evaluated as important to build trust in CCU
labels. Here, a kind of “chicken-and-egg” problem or
“double relevance” of (dis)trust gets apparent:
Previous research on consumer skepticism towards
companies’ claims about their environmental actions
has found that distrust in these claims (e.g., perceived
greenwashing) motivates laypeople to spread negative
word of mouth about the companies’ products in their
circle of friends and acquaintances (Leonidou and
Skarmeas, 2017). This means, if trust in the CCU
product label and CCU products in general fails to be
developed and mistrust is built at the early
implementation stage (e.g., by a misleading,
ambiguous information campaign that ignores
laypeople’s requirements), this might prevent a
successful market adoption of CCU products in later
stages due to dynamics of negative word of mouth.
The findings of this study should be interpreted
with caution: It should not be concluded that
parameters related to the certification process and label
design are unimportant for trust-building in the CCU
label because respondents evaluated certifying
organization and process criteria as most relevant for
their trust and distrust in a CCU product label. When
CCU products become more widely available on the
market, there might be a shift in importance: Once
people know about the products and the label, other
factors like unambiguity and comprehensibility of
presented information, argument specificity of label
claims, label familiarity, and governmental / third-
party certification may come into play since these are
important parameters influencing trust and preferences
for eco-labels (Atkinson and Rosenthal, 2014; Moon et
al., 2017; Sirieix et al., 2013).
From a perspective on trust theory and
conceptualization, the present results corroborate
findings from past research (e.g., McKnight and
Chervany, 2001; Van de Walle and Six, 2014) that trust
and distrust are in a wide array separate concepts
because the obtained factor structure for trust and
distrust conditionals represented mostly pure trust or
distrust factors. There was only one “mixed” factor
containing both, trust and distrust conditionals.
4.2 One Label for All? Or the Impact
of Individual Factors on CCU
Labels
Analyzing the impact of user factors on CCU label
perceptions, it was found that CCU label trust and
purchase intention for CCU products were (directly)
influenced by different antecedents. Whereas CCU
label trust was mainly affected by trust-related factors
(trust disposition and general trust in product labels)
and by age, the purchase intention for labeled CCU
products was increased by a more environmentally
aware behavior and a lower technical self-efficacy.
These findings partly mirror results from
(Sønderskov and Daugbjerg, 2011) on eco-label trust,
which was also found to be affected by general trust
constructs (general social and institution-based trust)
Identifying the “Do’s” and “Don’ts” for a Trust-Building CCU Product Label
65
and to be higher in younger people, but they are not
in line with the influence of environmental awareness
and gender identified in that study. Interestingly, in
the present study environmental awareness came into
play for the purchase intention related to labeled CCU
products, which corroborates findings from past
research on attention to and preferences for eco-labels
(e.g., Thøgersen, 2000). An explanation for the
identified negative influence of technical self-
efficacy on intention to buy labeled CCU products
could be that people who feel generally more affine
to technology do not want or need to rely on a product
label for decision guidance but tend to rely rather on
their individual knowledge and experience for
product selection. This explanation attempt needs to
be investigated in future studies. Although trust
disposition and general trust in labels did not directly
influence CCU product purchase intention, there
might have been an indirect impact of these general
trust attitudes via CCU label trust, which was found
to be the biggest driver for the intention to buy CCU
products. The effect of label trust on purchase
intention mirrors previous research on eco-label
adoption (e.g., Konuk, 2018; Teisl et al., 2008).
4.3 Methodological Considerations
The present study suffers from some methodological
issues that should be addressed by future research.
One limitation is the small, young, and highly
educated sample. Though appropriate for a first
exploration of trust in a CCU label, the study should
be replicated with a census representing sample to
measure the view of the entire German population.
A further methodological consideration is the way
the relevance of trust and distrust factors for building
trust was assessed: If survey respondents are
presented with a list of predefined factors and asked
to indicate if these aspects might raise their trust, their
attention is artificially drawn to these aspects. Thus,
respondents might tend to find every aspect offered to
them important, although they might not have thought
of these factors themselves, leading to an
overestimation of trust-relevance (over-trust, Goel et
al., 2005). Therefore, a strength of the present study
is the additional investigation of impact factors on
trust using regression analysis, which revealed that
only sources informing about the CCU label
significantly affected trust in CCU labels. Future
studies should investigate if trust and distrust are
affected by similar certification-related
characteristics or whether impact factors differ.
The obtained (dis)trust factor structure was not
completely distinct, e.g., in some cases items with a
similar semantic content loaded on different factors.
Therefore, the factorial structure of trust and distrust
in CCU labels should be replicated in future studies
with a bigger and more balanced sample to more
precisely “carve out” the factors and subdimensions.
Moreover, the present research focused
exclusively on the trusting belief dimensions of
benevolence and integrity related to the CCU label
certification. Since the framework of McKnight and
Chervany (2001) also includes trusting beliefs related
to competence and predictability as factors
influencing trusting intentions, these should be
examined in future studies on CCU label trust. The
impact of these missing dimensions might explain the
significant difference between trusting beliefs and
trusting intention in the current study, assuming that
trusting intentions are a function of adding up and
weighing different dimensions of trusting beliefs.
4.4 Recommendations for a
Trust-Building CCU Product Label
Summarizing the study’s results, the following
recommendations (“Do’s” and “Don’ts”) for a trust-
building CCU product label can be derived:
What policymakers and CCU industry should do…
• Integrate the user perspective in early stages of
CCU product development and CCU label design
to achieve user-centered innovations.
• Enable consumers to make an informed purchase
decision for CCU products.
• Assign the awarding decision of the CCU label to
an independent organization.
• Make CCU label awarding criteria and time frame
transparent.
• Provide comprehensible, unambiguous, neutral,
and verifiable information on and about the CCU
label.
• Develop transparent and credible information
campaigns involving trusted information sources
such as the media to raise awareness and
familiarity of the CCU label.
What you should not do (anymore)…
• Do not solely target at the merchantability of CCU
products but include laypeople’s needs and
concerns in the development of novel products
and product labels.
• Do not try to persuade people to accept novel
technology – acceptance is a fragile good which
needs to be donated by consumers.
• Do not include user requirements only out of
moral or social justice reasons but because they
SMARTGREENS 2019 - 8th International Conference on Smart Cities and Green ICT Systems
66
are valuable information sources for designing
targeted communication strategies and tailoring
products to consumer needs.
• Do not use famous label ambassadors as
testimonials for a CCU product label.
• Avoid misleading label claims that elicit
misconceptions and distrust.
• Avoid a label awarding by CCU industry or a
dependent organization.
From an overarching perspective, trust is only one (but
a very essential) aspect of a successful label design.
Thus, after identifying the trust-building conditions for
the CCU label development, future studies should
expand the scope to consumer requirements for
comprehensibility and preferred label design (i.e., label
wording, color scheme, design elements). This would
help label developers to gain a deeper understanding
on how to create a socially-accepted label, which raises
public awareness of CCU products, assists laypeople in
informed purchase decisions, and subsequently
supports the market adoption of CCU products.
ACKNOWLEDGEMENTS
The authors thank Saskia Ziegler for research support.
This work has been funded partly by the European
Institute of Technology & Innovation (EIT) within the
EnCO2re flagship program Climate-KIC and partly by
the Cluster of Excellence “Fuel Design Center” under
Contract EXC 2186 by the German federal and state
governments.
REFERENCES
Arning, K., Offermann-van Heek, J., Linzenich, A.,
Kaetelhoen, A., Sternberg, A., Bardow, A., Ziefle, M.,
2019. Same or different? Insights on public perception
and acceptance of carbon capture and storage or
utilization in Germany. Energy Policy, 125, 235–249.
Atkinson, L., Rosenthal, S., 2014. Signaling the Green Sell:
The Influence of Eco-Label Source, Argument
Specificity, and Product Involvement on Consumer
Trust. Journal of Advertising, 43(1), 33–45.
Beier, G., 1999. Locus of control when interacting with
technology (Kontrollüberzeugungen im Umgang mit
Technik). Report Psychologie, 24, 684–693.
Bögel, P., Oltra, C., Sala, R., Lores, M., Upham, P.,
Dütschke, E., Schneider, U., Wiemann, P., 2018. The
role of attitudes in technology acceptance management:
Reflections on the case of hydrogen fuel cells in Europe.
Journal of Cleaner Production, 188, 125–135.
Brécard, D., Lucas, S., Pichot, N., Salladarré, F., 2012. Con-
Consumer preferences for eco, health and fair trade
labels. An application to seafood product in France.
Journal of Agricultural & Food Industrial Organization,
10(1).
Emberger-Klein, A., Menrad, K., 2018. The effect of
information provision on supermarket consumers’ use of
and preferences for carbon labels in Germany. Journal of
Cleaner Production, 172, 253–263.
European Commission, 2013. Attitudes of Europeans
towards building the single market for green products.
Flash Eurobarometer 367. Retrieved February 8, 2019,
http://ec.europa.eu/commfrontoffice/publicopinion/flash
/fl_367_en.pdf
European Commission, 2008. Attitudes of European citizens
towards the environment. Special Eurobarometer
295/Wave 68.2. Retrieved February 8, 2019, from
http://ec.europa.eu/commfrontoffice/publicopinion/archi
ves/ebs/ebs_295_en.pdf
Feucht, Y., Zander, K., 2018. Consumers’ preferences for
carbon labels and the underlying reasoning. A mixed
methods approach in 6 European countries. Journal of
Cleaner Production, 178, 740–748.
Field, A., 2009. Discovering statistics using SPSS (3rd ed.).
London: Sage.
Goel, S., Bell, G. G., Pierce, J. L., 2005. The perils of
Pollyanna: Development of the over-trust construct.
Journal of Business Ethics, 58(1-3), 203-218.
Hair, J. F., 2011. Multivariate data analysis: an overview. In
Lovric, M. (Ed.), International encyclopedia of statistical
science. Berlin, Heidelberg: Springer.
Huijts, N. M. A., Molin, E. J. E., Steg, L., 2012.
Psychological factors influencing sustainable energy
technology acceptance: A review-based comprehensive
framework. Renewable and Sustainable Energy Reviews,
16(1), 525–531.
Jones, C. R., Olfe-Kräutlein, B., Naims, H., Armstrong, K.,
2017. The Social Acceptance of Carbon Dioxide
Utilisation: A Review and Research Agenda. Frontiers
in Energy Research, 5:11.
Konuk, F. A., 2018. The role of store image, perceived
quality, trust and perceived value in predicting
consumers’ purchase intentions towards organic private
label food. Journal of Retailing and Consumer Services,
43, 304–310.
Leonidou, C. N., Skarmeas, D, 2017. Gray Shades of Green:
Causes and Consequences of Green Skepticism. Journal
of Business Ethics, 144(2), 401–415.
McKnight, D. H., Chervany, N. L., 2001. Trust and Distrust
Definitions: One Bite at a Time. In Falcone, R., Singh,
M., Tan, Y.-H. (Eds.), Trust in Cyber-societies (Lecture
Notes in Computer Science Vol. 2246, pp. 27–54).
Berlin, Heidelberg: Springer.
McKnight, D. H., Choudhury, V., Kacmar, C., 2002.
Developing and validating trust measures for e-
commerce: An integrative typology. Information Systems
Research, 13(3), 334–359.
Moon, S.-J., Costello, J. P., Koo, D.-M., 2017. The impact of
consumer confusion from eco-labels on negative WOM,
distrust, and dissatisfaction. International Journal of
Advertising, 36(2), 246–271.
Identifying the “Do’s” and “Don’ts” for a Trust-Building CCU Product Label
67
Moussa, S., Touzani, M., 2008. The perceived credibility of
quality labels: a scale validation with refinement. In-
ternational Journal of Consumer Studies, 32(5), 526–
533.
Offermann-van Heek, J., Arning, K., Linzenich, A., Ziefle,
M., 2018. Trust and Distrust in Carbon Capture and
Utilization Industry as Relevant Factors for the
Acceptance of Carbon-Based Products. Frontiers in
Energy Research, 6:73.
Olfe-Kräutlein, B., Naims, H., Bruhn, T., Lorente Lafuente,
A. M., 2016. CO
2
as an Asset – Challenges and Potential
for Society. Potsdam: IASS. Retrieved February 8, 2019,
from http://publications.iass-
potsdam.de/pubman/item/escidoc:2793988:3/componen
t/escidoc:2793989/IASS_Study_2793988.pdf
Sirieix, L., Delanchy, M., Remaud, H., Zepeda, L., Gurviez,
P., 2013. Consumers’ perceptions of individual and
combined sustainable food labels: a UK pilot
investigation. International Journal of Consumer
Studies, 37(2), 143–151.
Sønderskov, K. M., Daugbjerg, C., 2011. The state and
consumer confidence in eco-labeling: organic labeling in
Denmark, Sweden, The United Kingdom and The United
States. Agriculture and Human Values, 28(4), 507–517.
Teisl, M. F., Rubin, J., Noblet, C. L., 2008. Non-dirty
dancing? Interactions between eco-labels and consumers.
Journal of Economic Psychology, 29(2), 140–159.
Thøgersen, J., 2000. Psychological Determinants of Paying
Attention to Eco-Labels in Purchase Decisions: Model
Development and Multinational Validation. Journal of
Consumer Policy, 23(3), 285–313.
Thøgersen, J., Haugaard, P., Olesen, A., 2010. Consumer
responses to ecolabels. European Journal of Marketing,
44(11/12), 1787–1810.
UNEP, 2017. The Emissions Gap Report 2017. Nairobi:
United Nations Environment Programme (UNEP).
Retrieved February 8, 2019, from https://www
.unenvironment.org/resources/emissions-gap-report
Upham, P., Dendler, L., Bleda, M., 2011. Carbon labelling of
grocery products: public perceptions and potential
emissions reductions. Journal of Cleaner Production,
19(4), 348–355.
Van de Walle, S., Six, F., 2014. Trust and Distrust as Distinct
Concepts: Why Studying Distrust in Institutions is
Important. Journal of Comparative Policy Analysis:
Research and Practice, 16(2), 158–174.
Van Heek, J., Arning, K., Ziefle, M., 2017. Differences
between Laypersons and Experts in Perceptions and
Acceptance of CO
2
-utilization for Plastics Production.
Energy Procedia, 114, 7212–7223.
Von der Assen, N., Bardow, A., 2014. Life cycle assessment
of polyols for polyurethane production using CO
2
as
feedstock: insights from an industrial case study. Green
Chemistry, 16, 3272–3280.
Waechter, S., Sütterlin, B., Siegrist, M., 2015. The
misleading effect of energy efficiency information on
perceived energy friendliness of electric goods. Journal
of Cleaner Production, 93, 193–202.
Wippermann, C., Calmbach, M., Kleinhückelkotten, S.,
2008. Umweltbewusstsein in Deutschland 2008.
Ergebnisse einer repräsentativen Bevölkerungsumfrage.
Berlin: Bundesministerium für Umwelt, Naturschutz und
Reaktorsicherheit (BMU). Retrieved February 8, 2019,
from
https://www.umweltbundesamt.de/sites/default/files/me
dien/publikation/long/3678.pdf
Zimmermann, A. W., Schomäcker, R., 2017. Assessing
Early-Stage CO
2
utilization Technologies—Comparing
Apples and Oranges? Energy Technology, 5(6), 850–
860.
APPENDIX
Table A.1: Items used for construct measurement.
Constructs
Items
Environmentally aware behavior
(Cronbach’s alpha = 0.78)
Item sources:
European Commission (2008);
Wippermann et al. (2008)
When buying household appliances, I pay attention to a low energy consumption.
When buying textiles, I make sure that they do not contain any harmful substances.
I purposefully buy products that cause as little harm as possible to the environment both during their
production and use.
I pay attention that the devices and products I buy are durable and repairable.
I purposefully buy regionally produced fruits and vegetables.
I try to avoid waste caused by unnecessary packaging, unnecessary plastic bags, etc.
Technical self-efficacy
(Cronbach’s alpha = 0.90)
Item source:
Beier (1999)
I really enjoy solving technical problems.
I can solve many of the technical problems I am confronted with on my own.
Because I could cope well with technical problems so far, I am optimistic about future technical
problems.
I feel so helpless when interacting with technical devices that I rather keep my hands off them.
Self-reported knowledge about
CCU*
(Cronbach’s alpha = 0.92)
I feel well informed about the topic of CCU.
I feel well informed about CO
2
capture.
I feel well informed about the utilization of CO
2
as feedstock.
I feel well informed about the CCU product spectrum.
General trust in labels*
I completely trust in product labels.
SMARTGREENS 2019 - 8th International Conference on Smart Cities and Green ICT Systems
68
Table A.1: Items used for construct measurement(cont.).
Trust in the CCU product label*
(Cronbach’s alpha = 0.81)
I would trust the CCU product label. (trusting intention)
I would use products with a CCU label without any concerns. (trusting intention)
I believe that the idea of a CCU product label is well-intentioned with regard to consumer interests.
(trusting belief – benevolence)
I believe that the CCU product label shall inform consumers. (trusting belief – benevolence)
I trust that the information displayed on the label is true. (trusting belief – integrity)
Purchase intention for labeled CCU
products*
(Cronbach’s alpha = 0.87)
I would prefer products with the CCU label to conventional products.
The CCU product label would convince me to buy novel / unfamiliar products.
I would actively search for products with the CCU label.
While shopping, I would purposefully look out for the CCU product label.
I would rather like to use products with the CCU label compared to conventional alternatives.
*Items were specifically developed for the topic of CCU labels and validated in pre-studies. Item development was based on results from
an interview pre-study and on research literature (for CCU label trust: Moussa and Touzani, 2008).
Table A.2: Rotated factor loadings of (dis)trust conditionals for a CCU product label on the extracted factors.
Trust /
Distrust
(T/D)
I would (dis)trust a CCU label if...
1
Unknown,
private
certifying
organization
2
Transparent,
independent
certification
process
3
Infor-
mation
sources
4
Provided
label
information
5
Unusual
label
design
D
the product manufacturers awarded the label.
.819
D
it was not awarded by an independent organization.
.795
D
a private organization awarded the label.
.663
D
there was no information about the certifying
organization which awards the label.
.570
D
I did not know the certifying organization.
.520
T
the criteria and conditions for awarding the label
process were transparent to me.
.799
T
it informed me about figures for the CO
2
footprint
compared to conventional products.
.734
T
the guidelines and timeframe of the product
controls were transparent to me.
.604
T
the certifying organization was independent.
.555
T
politicians drew attention to the label and
recommended it.
.808
T
it was disseminated and explained by the media
(newspapers, TV, radio).
.717
T
it was represented by a famous label ambassador.
.689
T
my friends and acquaintances told me about it.
.654
D
there was no reference to additional information
(weblink or QR code).
.797
D
it contained only little information.
.614
T
information about the certifying organization (e.g.,
the organization’s headquarters) was available.
.534
D
it had an unusual design compared to other labels.
.854
D
it had an unusual shape compared to other labels.
.764
Bartlett’s test of sphericity p < 0.001, KMO = .775
Items that did not load on the 5 identified factors with a factor loading > .512 were excluded.
Identifying the “Do’s” and “Don’ts” for a Trust-Building CCU Product Label
69
